Download Carrier 40QNB018 Specifications
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NIKE RETAIL INTERIORS 3393 PEACHTREE ROAD NE ATLANTA, GEORGIA ADDENDUM NO. 2 ATTACHMENTS 1. Sheets A0.00, A0.02, A0.05, A2.01, A2.02, A3.02A, A7.03, A7.04, A7.05, A8.06 DRAWINGS 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 12101 A0.00: Add: A0.02: Remove: Add: A0.05: Revise: A2.01 Revise: Revise: Add: Add: A2.02 Revise: General notes, and notes for demolition plans, floor plans, reflected ceiling plans, and storefront elevations. 5/8" greenboard at partition type 1 5/8" greenboard at partition type 2 Finish legend descriptions: Revise Benjamin Moore 2133 20 Black Jack… to SW6991 Black Magic Revise Benjamin Moore AC-28 Smoke Embers Gray… to SW7064 Passive Revise Ralph Lauren RLTH236 Palais Royal… to SW2846 Westchester Gray Revise SW7018 Dovetail… to SW7669 Summit Gray Partition type at fitting room area and elevator lobby. Sheet note 10 Sheet note 18 Furred out wall at west side of break room Partition type at fitting room area, elevator lobby and at south side of mall elevator. A3.02A: Add: Detail 4/7/10/A8.06 A7.03: Add: Revise View #3 and 14 – door handles treatment Height of 'Nike' push-thru signage A7.04: Add: Revise: View #1 and 8 – door handles treatment Height of 'Nike' push-thru signage A7.05: Add: Revise: View #3 – door handles treatment View #10 – linear bar grille size 6"X18" A7.06: Revise: View #6 – view cut line moved to reveal display fixture panels. ADDENDUM NO. 2 1 ADDENDUM. NO. 2 03.20.13 NIKE RETAIL INTERIORS 3393 PEACHTREE ROAD NE ATLANTA, GEORGIA ADDENDUM NO. 2 1.11 A8.06: Add: Revise: Sheet A8.06 added View #1 – moved from 12/A8.01 to 1/A8.06 ATTACHMENTS 2. Sheets E0.00, E4.00, F0.00, M4.00, M4.02, P0.00, P2.01, P2.02 DRAWINGS 1.12 1.13 1.14 1.15 1.16 E0.00: Add: E4.00: Add: F0.00 Add: M2.01 Add: M2.03: Clarification: Clarification: 1.17 1.18 1.19 1.20 1.21 1.22 M4.00: Add: M4.02: Add: Added Landlord’s general notes Added note about coordinating connection to Landlord’s switchgear. Added Landlord notes to plan. Revised linear diffusers serving display area. Tag note 21 was added for clarification. Note 3 was modified to include landlord required note, pitch pockets and wood blocking not permitted. Note 1 was modified to direct the mechanical contractor to install the CSUSA furnished outside air monitoring station. The duct insulation schedule has been modified. Return air duct requires ½” acoustical lining. Supply air duct is required to be double wall insulated. The metal duct spec section has been modified to include double wall rectangular and double wall round ducts and fittings. M4.03: Clarification: The linear diffuser spec has been modified to a different type. P0.00: Add: Added General notes. P2.01 Add: Added note to route sink piping in furred out wall. Revised: P2.02 Add: Revised location of Cold water and Vent stack to second floor. Revised location of Cold water and Vent stack to first floor. END OF ADDENDUM 12101 ADDENDUM NO. 2 2 ADDENDUM. NO. 2 03.20.13 NIKE, INC. NIKE RETAIL LENOX SQUARE MALL - ATLANTA, GA tva architects inc. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 FEBRUARY 22, 2013 PERMIT SET PROPERTY MANAGER: SIMON PROPERTY GROUP 225 W. WASHINGTON ST. INDIANAPOLIS, IN 46204 CONTACT: MIKE DAVIDSON T: 317.685.7214 PROJECT LOCATION 3393 PEACHTREE ROAD NE SUITES 3070 AND 3070u 1ST AND 2ND FLOORS ATLANTA, GA 30326 OWNER NIKE, INC. 1 BOWERMAN DRIVE BEAVERTON, OR 97005 CONTACT: JEN GAGNER T: 503.532.3065 ARCHITECT TVA ARCHITECTS, INC. 920 SW 6TH AVENUE SUITE 1500 PORTLAND, OR 97204 ARCHITECT OF RECORD: BOB THOMPSON CONTACT: JOHN HEILI T: 503.220.0668 LIGHTING DESIGNER: LIGHTING WORKSHOP 20 JAY STREET STE. 310B BROOKLYN, NY 11201 CONTACT: DOUG RUSSELL T: 212.796.6510 PROJECT SCOPE: SCOPE OF DEMOLITION WORK INCLUDES CREATING NEW SHAFT OPENING AT EXISTING FLOORS, SELECTIVE DEMO AT (E) CONCRETE PAN DECK, REMOVAL OF SPRINKLER PIPING, AND REMOVAL OF MISCELLANEOUS CONDUIT, REBAR, ETC. SCOPE OF NEW WORK INCLUDES CONSTRUCTION OF MALL STOREFRONT ON LEVELS 1 & 2, NEW VESTIBULE AT NORTH ENTRANCE, NON-EGRESS STAIR, ELEVATOR, PARTITIONS, LIGHTING, MECHANICAL, ELECTRICAL AND PLUMBING SYSTEMS, RETAIL FURNISHINGS AND FIXTURES (PROVIDE AND INSTALLED BY OWNER) AS REQUIRED TO PROVIDE A FULL TENANT FIT-OUT OF RETAIL SPACE WITHIN THE EXISTING BUILDING SHELL. STRUCTURAL ENGINEER: KPFF CONSULTING ENGINEERS 111 SW 5TH AVENUE, STE. 2500 PORTLAND, OR 97204 CONTACT: ANNE MONNIER T: 503.227.3251 RELATED ITEMS UNDER SEPARATE DOCUMENTATION AND PERMIT INCLUDE FACADE IMPROVEMENTS, FLOOR SLAB INFILL, NEW FLOOR SLAB OPENINGS, MALL ELEVATOR RELOCATION. M.E.P. ENGINEER KLH ENGINEERS, PSC 1538 ALEXANDRIA PIKE SUITE 11 FT. THOMAS KY 41075 CONTACT: JIM TAVERNELLI, PM LUKE FEINAUER, ELECTRICAL MATT DEBEVEC, MECHANICAL KEITH SCHLOEMER, PLUMBING AND FIRE PROTECTION T 859 442-4510 LENOX SQUARE MALL KEY PLANS: DRAWING SYMBOLS LEGEND: ISSUED FOR CONSTRUCTION LANDLORD NOTES: GENERAL COMMENTS: DEMOLITION PLANS: • PLANS REVIEWED AND APPROVED BY LANDLORD'S TENANT COORDINATOR MUST BE PRESENT ON THE JOB SITE AND BE ACCOMPANIED BY PLANS APPROVED FOR BUILDING PERMIT. ANY PROPOSED DEVIATION FROM THE LANDLORD APPROVED PLANS MUST BE NUMBERED AND CLOUDED ON PLANS, AND THEN RESUBMITTED BY THE TENANT TO THE LANDLORD FOR RE-APPROVAL PRIOR TO ANY CONSTRUCTION CHANGES TAKING PLACE IN THE FIELD. • TENANT'S GC IS REQUIRED TO CHECK IN WITH LANDLORD'S ON SITE PROPERTY MANAGER PRIOR TO START OF TENANT CONSTRUCTION. CONTACT MALL MANAGEMENT OFFICE. • CONTACT PROPERTY MANAGEMENT FOR CONSTRUCTION BARRICADE REQUIREMENTS, INCLUDING BARRICADE GRAPHICS. • TENANT'S GC IS RESPONSIBLE TO COMPLY WITH ALL MALL RULES AND REGULATIONS AND AS INSTRUCTED ON SITE BY MALL MANAGEMENT. • ANY DAMAGE TO LANDLORD'S PROPERTY DURING TENANT DEMOLITION OR CONSTRUCTION (MALL FLOORING, BULKHEAD, NEUTRAL PIERS, ETC.) WILL BE REPAIRED PER MALL SPECIFICATIONS, AT TENANT'S EXPENSE. • ANY LANDLORD EQUIPMENT OR COMPONENT THAT IS EXISTING IN THE SPACE MUST REMAIN VISIBLE AND ACCESSIBLE TO THE LANDLORD. TENANT TO INSTALL ACCESS PANELS AS NECESSARY, AND PROPERLY LABEL IN SPACE. • ALL LANDLORD COMMENTS FROM PREVIOUS REVIEW(S) ARE TO BE INCORPORATED INTO THE FINAL SET OF APPROVED DRAWINGS AND ARE TO BE ADHERED TO IN THE FIELD. • ALL LANDLORD COMMENTS ON THIS SET OF DRAWINGS APPLY TO THE ENTIRE DOCUMENT SET, EVEN IF NOT REPEATED ON EVERY SHEET IN DRAWING SET. • THE RE-USE OF ANY EXISTING CONSTRUCTION, FINISHED, EQUIPMENT, OR ELECTRICAL, PLUMBING OR HVAC SYSTEMS CURRENTLY IN THE SPACE IS CONDITIONAL UPON IT BEING APPROPRIATE FOR RE-USE. ANY EXISTING CONDITION OR EQUIPMENT TO BE RE-USED MUST BE RESTORED TO LIKE NEW CONDITIONS. THE LANDLORD MAKES NO WARRANTY ON THE RE-USE OF ANY EXISTING CONDITION IN THE SPACE. • IF AT ANY POINT A FAILURE OR UPGRADES OR IMPROVEMENTS TO EXISTING SYSTEMS OCCURS, IT IS THE SOLE RESPONSIBILITY OF THE TENANT TO REPAIR OR REPLACE, AT TENANT EXPENSE. • LANDLORD AND TENANT RESPONSIBILITIES ARE AS DEFINED IN LEASE AGREEMENT. • TENANT IS REQUIRED TO INSTALL A WATERPROOF MEMBRANE IN ALL WET AREAS OF SPACE. TENANT SHALL USE A 30 MIL POLYETHYLENE CLEAVAGE MEMBRANE (EQUAL TO NOBLESEAL TS) INSTALLED PER MANUFACTURERS RECOMMENDATIONS AND ANSI A108. MEMBRANE MUST BE EXTENDED UP THE WALL A MINIMUM OF 4" OR EQUAL TO THE HEIGHT OF THE FLOOR BASE. • THE TENANT SHALL BE RESPONSIBLE FOR VERIFYING THAT THESE REMODEL/CONSTRUCTION DOCUMENTS MEET ALL A.D.A. STANDARDS OR REQUIREMENTS. • ANY EXISTING EQUIPMENT OR COMPONENT IN OR PERTAINING TO THE PREMISES THAT IS BEING ABANDONED MUST BE DEMOLISHED COMPLETELY AND PROPERLY REMOVED FROM PREMISES. • ALL ABOVE GROUND UTILITY LINES NOT TO BE RE-USED MUST BE REMOVED TO POINT OF ORIGIN. ALL UNDER SLAB UTILITY LINES TO BE CUT, CAPPED AND SEALED PER CODE. • ALL ROOF MOUNTED EQUIPMENT ABOVE THE LEASES PREMISES NOT TO BE RE-USED MUST BE REMOVED BY TENANT GC AT TENANT EXPENSE. ROOF MUST BE PROPERLY PATCHED BY MALL REQUIRED ROOFER. ROOF CURBS MUST BE REMOVED AND ROOF PATCHED - DO NOT CAP. COORDINATE ALL WORK WITH MALL OPERATIONS DIRECTOR. • ALL FLOOR PENETRATIONS MUST BE CORE BORED OR SAW CUT. GC MUST X-RAY OR OTHERWISE VERIFY THAT THERE ARE NO EXISTING UNDER SLAB CONDITIONS OF UTILITIES THAT WILL BE AFFECTED PRIOR TO CORING/CUTTING CONCRETE. • OPENINGS ON ELEVATED SLABS MUST BE SLEEVED, SEALED, FIRE STOPPED, AND WATERPROOFED. • ALL PIPING SLEEVES MUST EXTEND A MINIMUM OF 4", OR TO THE HEIGHT OF THE BASE. • COORDINATION OF CONSTRUCTION BARRICADE AND DUMPSTERS IS TO BE COORDINATED WITH MALL MANAGEMENT ON SITE. STOREFRONTS: REFLECTED CEILING PLANS: • IF NOT ALREADY EXISTING, TENANT MUST PROVIDE A SEALED PARTITION ABOVE THE STOREFRONT TO SEPARATE THE COMMON AREA CEILING FROM THE TENANT'S SPACE. (SHALL BE RATED IF REQUIRED BY CODE.) • WHEN STOREFRONT GRILLES ARE PERMITTED BY LANDLORD, THEY MUST BE FLOOR SUPPORTED AND SHALL ATTACH TO LANDLORD'S STRUCTURE FOR LATERAL SUPPORT ONLY. WHEN IN OPEN POSITION, BOTTOM RAIL OF GRILLE MUST BE FULLY RECESSED INTO CEILING TREATMENT ABOVE. NO WELDING TO STRUCTURE IS PERMITTED. • SLAT WALL MAY NOT BE USED WITHIN THE FIRST 5'-0" OF THE SPACE. • VERTICAL GLASS JOINTS SHALL BE FRAMELESS BUTT JOINTS. • PAINTED DRYWALL IS NOT AN ACCEPTABLE STOREFRONT FINISH. • ANY DAMAGE TO MALL PROPERTY OR ADJACENT TENANTS DURING CONSTRUCTION MUST BE REPAIRED TO MALL SPECIFICATIONS, AT TENANT'S EXPENSE. • STOREFRONT SIGN MUST BE ON A 7-DAY, 24-HOUR TIME CLOCK. ILLUMINATED SIGNS MUST REMAIN ILLUMINATED DURING ALL MALL HOURS. • TENANT IS REQUIRED TO MAKE A FIELD SURVEY OF THE EXISTING ELECTRICAL SERVICE AND IS RESPONSIBLE FOR MAKING ANY AND/OR ALL MODIFICATIONS REQUIRED TO INSURE THAT THE TOTAL CONNECTED LOAD DOES NOT EXCEED THE ELECTRICAL SERVICE. • NOTHING IS PERMITTED TO BE ATTACHED TO OR SUSPENDED FROM OR PENETRATE THE ROOF DECK ABOVE. YOU ARE REQUIRED TO FRAME, BRACE AND/OR SUSPEND, AS NEEDED, TO/FROM THE TOP CHORD OF JOISTS OR STRUCTURAL STEEL WHICH EXIST ABOVE YOUR RESPECTIVE TENANT SPACE. FLOOR PLANS: • TENANT IS RESPONSIBLE TO FIELD VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS IN THE SPACE. FAILURE TO PROPERLY FIELD VERIFY EXISTING CONDITIONS DOES NOT RELIEVE THE TENANT OF ANY EXPENSES OR RESPONSIBILITIES RESULTING FROM THAT FAILURE. • NOTHING IS PERMITTED TO BE ATTACHED TO, SUSPENDED FROM, OR PENETRATE THE ROOF DECK. TENANTS MAY ATTACH TO THE TOP CHORD OF JOIST(S) OR TO THE STRUCTURAL STEEL. ALL WALL CONSTRUCTION SHALL BE SUPPORTED IN THIS MANNER. NO WELDING OR SHOOTING INTO THE STRUCTURE IS PERMITTED. • STRUCTURAL REINFORCING DETAILS MUST BE PROVIDED BY A REGISTERED STRUCTURAL ENGINEER TO TENANT COORDINATION FOR EQUIPMENT SUPPORT OR SUSPENSION, SERVICE PLATFORMS, DECK PENETRATIONS, ETC. • ANY LANDLORD EQUIPMENT OR COMPONENT THAT IS EXISTING IN THE SPACE MUST REMAIN VISIBLE AND ACCESSIBLE TO THE LANDLORD. TENANT TO INSTALL ACCESS PANELS AS NECESSARY, AND PROPERLY LABEL IN SPACE. COORDINATE PLACEMENT WITH MALL OPERATIONS DIRECTOR. • TENANT'S STOCKROOM MAY NOT BE VISIBLE FROM THE SALES AREA. DOOR(S) LEADING TO THE STOCKROOM MUST HAVE AN AUTOMATIC CLOSURE. • ALL REAR ENTRIES MUST HAVE A DOORBELL FOR DELIVERIES. • ALL CONCRETE PATCHING MUST BE LEVEL WITH THE EXISTING CONCRETE FLOOR. 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 VICINITY MAP: 2 PROJECT INFORMATION: nike retail interiors PROJECT TEAM: DRAWING INDEX: Revisions: PEACHTREE ROAD NE NIKE RETAIL SUITE 3070 PEACHTREE ROAD NE NIKE RETAIL SUITE 3070u 1 DIMENSION STYLE 1/2" T.O. SLAB EL. T.O. SLAB EL. 1 SPOT ELEVATION TAG A101 ## ## SLOPE 1/4" /FT. ELEVATION TAG R-01 SIM BUILDING SECTION TAG SIM DETAIL TAG FLOOR TRANSITION TAG ROOF SLOPE TAG RELITE TAG A101 1D SX SIM 1 WALL TAG REF WALL TYPES SHEET WALL SECTION TAG A101 1 1 SIM DETAIL TAG A101 A101 1 REVISION TAG 1 VIEW NAME SCALE INTERIOR ELEVATION TAG DRAWING TITLE N ROOM 101 ROOM TAG GL-1T MATERIAL TAG DOOR # DOOR TAG 12345 ITEM SPECIFICATION TAG 1 GRID TAG NORTH ARROW C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:04 PM REVISION BUBBLE EAST PACES FERRY ROAD NE LENOX SQUARE MALL - LEVEL 1 CENTERLINE EAST PACES FERRY ROAD NE N LENOX SQUARE MALL - LEVEL 2 N ARCHITECTURAL ARCHITECTURAL (CON'T.) A0.00 A0.01 A0.02 A0.03 A0.04 A0.05 A0.10 A0.11 A0.12 A0.13 A0.14 A0.15 A0.16 A0.17 A0.20 D2.01 D2.02 D2.03 D3.01 D3.02 A2.01 A2.02 A2.03 A3.01A A3.01B A3.02A A3.02B A5.01 A6.01 A6.02 A7.01 A7.02 A7.03 A7.04 A7.05 A7.06 A7.07 A7.08 A7.09 A7.10 A7.11 A7.12 A7.13 A8.01 A8.02 A8.03 A8.04 A8.05 A8.06 COVER SHEET LIFE / SAFETY PARTITION TYPES & HEAD CONDITIONS DISABLED ACCESS PLANS DOOR SCHEDULES FINISH SCHEDULES DIV 01 SPECIFICATIONS DIV 01 - DIV 04 SPECIFICATIONS DIV 05 - DIV 06 SPECIFICATIONS DIV 06 - DIV 08 SPECIFICATIONS DIV 08 - DIV 09 SPECIFICATIONS DIV 09 SPECIFICATIONS DIV 09 - DIV 12 SPECIFICATIONS DIV 14 SPECIFICATIONS MALL AREA PLANS LEVEL 1 - DEMO FLOOR PLAN LEVEL 2 - DEMO FLOOR PLAN ROOF - DEMO PLAN LEVEL 1 - DEMO RCP LEVEL 2 - DEMO RCP LEVEL 01 - PLAN LEVEL 02 - PLAN ROOF PLAN LEVEL 1 - RCP LIGHTING LEVEL 1 - RCP DEVICES LEVEL 2 - RCP LIGHTING LEVEL 2 - RCP DEVICES BUILDING SECTIONS INTERIOR ELEVATIONS INTERIOR ELEVATIONS ELEVATOR - PLANS, SECTION, DETAILS ELEVATOR CAB PLANS, ELEV., & DETAILS MALL ENTRANCES LEVEL 1 MALL ENTRANCES LEVEL 2 NORTH ENTRANCE STAIR - PLANS & ELEVATIONS STAIR - DETAILS STAIR - DETAILS ENLARGED PLANS AND ELEVATIONS ENLARGED PLANS AND ELEVATIONS ENLARGED PLANS AND ELEVATIONS ENLARGED PLANS AND ELEVATIONS ENLARGED PLANS AND ELEVATIONS DETAILS DETAILS DETAILS DETAILS DETAILS DETAILS 2 STRUCTURAL S0.01 S0.02 S2.01 S2.02 S2.03 S3.01 S4.01 S4.02 S6.01 S6.02 DRAWING INDEX AND LIST OF ABBREVIATIONS GENERAL STRUCTURAL NOTES LEVEL 01 - FRAMING PLAN LEVEL 02 - FRAMING PLAN ROOF FRAMING PLAN LEVEL 01 RCP FRAMING PLAN STAIR PLANS AND DETAILS WALL ELEVATION AND DETAILS DETAILS DETAILS MECHANICAL M2.01 M2.02 M2.03 M3.00 M3.01 M3.02 M4.00 M4.01 M4.02 M4.03 M4.04 LEVEL 01 - HVAC PLAN LEVEL 02 - HVAC PLAN ROOF HVAC PLAN HVAC SCHEDULES HVAC DETAILS MECHANICAL ENERGY COMPLIANCE HVAC SPECIFICATIONS HVAC SPECIFICATIONS HVAC SPECIFICATIONS HVAC SPECIFICATIONS HVAC SPECIFICATIONS ELECTRICAL E0.00 E2.01 E2.02 E3.01 E3.02 E3.03 E4.00 E4.01 E5.00 E5.01 E5.02 E5.03 E6.00 ELECTRICAL LEGEND LEVEL 01 - ELECTRICAL LIGHTING PLAN LEVEL 02 - ELECTRICAL LIGHTING PLAN LEVEL 01 - ELECTRICAL POWER PLAN LEVEL 02 - ELECTRICAL POWER PLAN ROOF - ELECTRICAL POWER PLAN SINGLE-LINE DIAGRAM ELECTRICAL PANELBOARD SCHEDULES ELECTRICAL LUMINAIRE SCHEDULE ELECTRICAL LIGHTING CONTROL DETAILS ELECTRICAL LIGHTING CONTROL SCHEDULES LIGHTING ENERGY COMPLIANCE ELECTRICAL DETAILS E6.01 E7.00 E7.01 ELECTRICAL DETAILS ELECTRICAL SPECIFICATIONS ELECTRICAL SPECIFICATIONS No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 PLUMBING P0.00 P2.01 P2.02 PLUMBING LEGEND, DETAILS AND SPECIFICATIONS LEVEL 01 - PLUMBING PLAN LEVEL 02 - PLUMBING PLAN FIRE PROTECTION F0.00 F2.01 F2.02 FIRE PROTECTION LEGENDS, NOTES, DETAILS, & SPEC. LEVEL 01 - FIRE PROTECTION PLAN LEVEL 02 - FIRE PROTECTION PLAN AUDIO & SECURITY (FOR REFERENCE ONLY) AV1.01 AV1.02 SE-1.0 SE-1.1 SE-1.2 SE-1.3 SE-1.4 SE-1.5 AUDIO LAYOUT - LEVEL 1 AUDIO LAYOUT - LEVEL 2 SECURITY WORKPLAN SECURITY WORKPLAN SECURITY WORKPLAN SECURITY WORKPLAN SECURITY WORKPLAN SECURITY WORKPLAN ENERGY MANAGEMENT SYSTEM (FOR REFERENCE ONLY) EMS-0 EMS-1 EMS-2 EMS-3A EMS-3B EMS-4A EMS-4B EMS-4C EMS-5A EMS-5B EMS-6A EMS-6B EMS-7 EMS-8 EMS-9A EMS-9B EMS-9C EMS-10 COVER SHEET EMS SINGLE LINE DIAGRAM OPUS PANEL INPUT AND OUTPUT WIRING DIAGRAM INPUT AND OUTPUT WIRING DIAGRAM SMART BREAKER WIRING DIAGRAM SMART BREAKER SCHEDULE SMART BREAKER SCHEDULE CARRIER FACTORY RTU BOARD INTERFACE CARRIER FACTORY RTU BOARD INTERFACE ECO VAV CONTROL ECO VAV CONTROL DENT POWERSCOUT KW METER INTERFACE BILL OF MATERIAL ENERGY MANAGEMENT SYSTEM LAYOUT 1ST FLOOR ENERGY MANAGEMENT SYSTEM LAYOUT 2ND FLOOR ENERGY MANAGEMENT SYSTEM LAYOUT ROOF SEQUENCE OF OPERATIONS PERMIT SET 1 COVER SHEET Project # 12101 A0.00 Date: 02.22.2013 09 29 00 METAL STUD BLOCKING, SIZE AND GAUGE TO MATCH STUDS. PLACE AT END OF WALL AND AT 2'-0" O.C. VERTICAL MAX. Partition Types General Notes 09 29 00 ALT. CONN CLIP ANGLE W/ SCREWS EA END 09 29 00 BLOCK FROM PIECE OF METAL STUD 1. PROVIDE PAINTABLE SEALANT AT ALL FIRESTOP SEALANT LOCATIONS EXPOSED TO VIEW. PLAN VIEW 2. SEE INTERIOR ELEVATIONS AND FINISH SCHEDULE FOR LOCATION AND EXTENT OF WALL-HUNG ITEMS REQUIRING SHEET METAL BRACING IN PARTITIONS. 09 29 00 METAL WALL STUD 3. SEE INTERIOR ELEVATIONS AND FINISH SCHEDULE FOR PARTITION FINISHES. A. SEE SPECIFICATION SECTION 09 29 00 FOR SPECIAL STUDS AND WATER-RESISTANT GYP. BOARD REQUIRED AT TILE FINISH. B. SEE SPECIFICATION FOR SECTION 09 29 00 FOR LEVEL OF FINISH REQUIRED BENEATH PANELS MOUNTED OVER GYP. BOARD. 09 29 00 (4) #8 SCREWS SHEATHING TO BLOCK WHERE F.T. PLYWOOD BACKING OCCURS, STRAP MAY BE OMITTED 4. SEE SPECIFICATION SECTION 09 29 00 FOR WATER-RESISTANT GYP. BOARD REQUIRED AT PARTITIONS BEHIND AND WITHIN SIX FEET OF PLUMBING FIXTURES. SEE FLOOR PLANS FOR LOCATIONS. 09 29 00 #8 SCREWS EA STUD FLANGE tva architects inc. 5. SEE REFLECTED CEILING PLAN FOR CEILING HEIGHTS. SEE REFLECTED CEILING PLAN AND FINISH SCHEDULE FOR CEILING FINISHES. 09 29 00 (4) #8 SCREWS AT BLOCKING 6. PARTITION TYPES WILL BE DENOTED AS FOLLOWS: 09 29 00 SHEATHING WHERE OCCURS PARTITION TYPE (1,2,3,,, 11,12,13,,, 21,22,23,,,) STUD SIZE (A, B, C, D) 0X SY Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 HEAD CONDITION (W, X, Y, Z); REF DETAIL 5/A.901 09 29 00 SPLICE STRAP ONLY AT METAL STUD BLOCKING SOUND PARTITION (WHERE INDICATED) 09 29 00 20 GA. X 1" CONTINUOUS FLAT STRAP AT 2'-0" VERT. TYP. OMIT METAL STRAPPING IF CONTINUOUS BLOCKING PROVIDED FOR ENTIRE LENGTH OF WALL. DENOTES SIDE OF (2) LYR GYP. BD. OR FT PLYWOOD BACKER FINISH WHERE OCCURS SEE WALL TYPES FOR LOCATION 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com 7. SEE FLOOR PLANS AND INTERIOR ELEVATIONS FOR LOCATIONS OF WALL PANELS AND FINISHES WHICH AFFECT "FACE OF FINISH" DIMENSIONS. 3 TYP. STUD WALL BRACING 1" = 1'-0" BOTTOM OF LEVEL 2 STRUCTURE 09 29 00 CONT FIRE RATED ACOUSTIC SEALANT AT PERIMETER 09 29 00 LONG LEG DEFLECTION HEAD TRACK W/ 3/4" MIN DEFLECTION SPACE (DO NOT FASTEN STUDS OR GYP BD TO TRACK) FASTEN TO CEILING STRUCTURE AT 2'-0" O.C. TBD ISSUED FOR CONSTRUCTION 09 29 00 ACOUSTIC BATT INSULATION AT SOUND PARTITION 09 29 00 (2) LAYER TYPE 'X' 5/8" GYP BD. ON 2-1/2" STEEL FRAMING AT 24" O.C. ADJACENT WALL WHERE OCCURS REFERENCE PLANS FOR ADDITIONAL INFORMATION (E) CONCRETE JOIST SYSTEM 09 29 00 (1) LAYER 5/8" GYP BD. ON STEEL FRAMING AT 24" O.C. 2 1 4 SIZE STUD 1-HR RATED PARTITION / DRAFT STOP 3" = 1'-0" SEE ROOM FINISH SCHEDULE FOR BASE TYPE 09 29 00 CONT ACOUSTIC SEALANT AT PERIMETER T.O. WALL REF. ELEVATIONS 1 A B C D E 250S125-33 362S125-33 400S125-33 600S125-33 800S125-43 STC MAX HT. - 9'-9" 12'-8" 14'-0" 19'-6" 26'-11" SINGLE-SIDED PARTITION TYPE - 1 ADJACENT WALL WHERE OCCURS REFERENCE PLANS FOR ADDITIONAL INFORMATION U PARTIAL-HEIGHT CMU 09 29 00 (1) LAYER 5/8" GYP BD. ON STEEL FRAMING AT 24" O.C. AT SIM, PROVIDE (1) LAYER 5/8" GREENBOARD F.T. PLYWOOD 2 SEE ROOM FINISH SCHEDULE FOR BASE TYPE BOTTOM OF STRUCTURE 09 29 00 CONT ACOUSTIC SEALANT AT PERIMETER 04 22 00 CONCRETE MASONRY UNIT 2 SIZE STUD A B C D E 250S125-33 362S125-33 400S125-33 600S125-33 800S125-43 STC MAX HT. - 9'-9" 12'-8" 14'-0" 19'-6" 26'-11" SINGLE-SIDED PARTITION W/ F.T. PLYWOOD TYPE - 2 04 22 00 REINFORCING, REF. STRUCTURAL V FULL-HEIGHT CMU 09 29 00 ACOUSTIC BATT INSULATION AT SOUND PARTITION 09 29 00 (2) LAYER 5/8" GYP BD. ON STEEL FRAMING AT 24" O.C. 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 09 29 00 ACOUSTIC BATT INSULATION AT SOUND PARTITION (1) LAYER F.T. PLYWOOD 04 22 00 REINFORCING, REF. STRUCTURAL nike retail interiors 04 22 00 CONCRETE MASONRY UNIT BOTTOM OF STRUCTURE 09 29 00 LONG LEG DEFLECTION HEAD TRACK W/ 3/4" MIN DEFLECTION SPACE (DO NOT FASTEN STUDS OR GYP BD TO TRACK) FASTEN TO CEILING STRUCTURE AT 2'-0" O.C. DASHED DENOTES GYP. BD OVER FIRE TREATED PLYWOOD WHERE OCCURS. SEE PLAN FOR WALL TYPES SEE ROOM FINISH SCHEDULE FOR BASE TYPE 09 29 00 CONT ACOUSTIC SEALANT AT PERIMETER; TYP BOTH SIDES 09 29 00 GYP. BD. ON STEEL FRAMING W 3 SIZE STUD A B C D E 250S125-33 362S125-33 400S125-33 600S125-33 800S125-43 STC MAX HT. 45 45 45 45 45 9'-9" 12'-8" 14'-0" 19'-6" 26'-11" DOUBLE-SIDED PARTITION TYPE - 3 Revisions: DOUBLE-SIDED PARTITION FINISH WHERE OCCURS. REFER DETAILS 09 29 00 ACOUSTIC BATT INSULATION AT SOUND PARTITION T.O. WALL REF. ELEVATIONS No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 09 29 00 (2) LAYER 5/8" GYP BD. ON STEEL FRAMING AT 24" O.C. DASHED DENOTES GYP. BD OVER FIRE TREATED PLYWOOD WHERE OCCURS. SEE PLAN FOR WALL TYPES (1) LAYER F.T. PLYWOOD 09 29 00 GYP. BD. ON STEEL FRAMING SEE ROOM FINISH SCHEDULE FOR BASE TYPE WHERE CEILING OCCURS, SEE CEILING PLAN FOR CEILING MATERIAL AND CONSTRUCTION. REFER TO DETAILS WHERE NECESSARY Y 09 29 00 CONT ACOUSTIC SEALANT AT PERIMETER; TYP BOTH SIDES 45 45 45 45 45 9'-9" 12'-8" 14'-0" 19'-6" 26'-11" 04 22 00 REINFORCING, REF. STRUCTURAL 06 10 00 CONTINUOUS WOOD BLOCKING W/ FOAM TAPE AT ACOUSTICAL PANEL 04 22 00 CONCRETE MASONRY UNIT DASHED DENOTES SECOND LAYER GYP. BD. WHERE OCCURS. SEE PLAN FOR WALL TYPES 04 22 00 MORTAR JOINT, REF. SPECIFICATIONS 09 29 00 GYP. BD. ON STEEL FRAMING SIZE BLOCK A B 4x6x16 8x8x16 STC MAX HT. 44 46 N/A N/A PARTITION TYPES & HEAD CONDITIONS Project # DOUBLE-SIDED PARTITION HEAD CONDITIONS 3" = 1'-0" PERMIT SET 04 22 00 MORTAR JOINT, REF. SPECIFICATIONS SEE CEILING PLAN FOR CEILING MATERIAL AND CONSTRUCTION C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:05 PM 250S125-33 362S125-33 400S125-33 600S125-33 800S125-43 DOUBLE-SIDED PARTITION W/ F.T. PLYWOOD TYPE - 4 09 29 00 DIAGONAL BRACING TO STRUCTURE ABOVE ATTACH AT 8'-0" OC W/ (2) #8 SMS AT EA END. BRACING REQD WHERE DISTANCE BETWEEN PERPENDICULAR WALLS OR HORIZONTAL BRACING EXCEEDS 8'-0" OC. SEE DETAIL 9/A9.05 FOR BALANCE OF INFORMATION 2 A B C D E STC MAX HT. DOUBLE-SIDED PARTITION 4 Z SIZE STUD 5 1 CMU WALL - NON RATED TYPE - 5 PARTITION TYPES 3" = 1'-0" 12101 A0.02 Date: 02.22.2013 09 29 00 GYP. BD. FINISH OVER STEEL FRAMING WALLS FLOOR BASE WEST NORTH EAST SOUTH CEILING REMARKS (E) CONCRETE SLAB PT-3/CMU-1 BB PT-2 MP PT-10 PT-2 PT-5 PT-5 CT-3/PT-5 PT-2 CT-3/PT-5 PT-2 PT-2 PT-2 PT-3 PT-5 PT-2 GL SALES STAIR ELEVATOR STAIR OFFICE OFFICE SHIP/REC. STOCK FITTING ROOMS TELE/DATA DISPLAY ENTRY WF-2 BB WF-1 (E) CP-1 CP-1 (E) (E) / ST WF-2 (E) WF-1 CT-1 MB (E) RB-1 RB-1 RB-1 RB-1 MB RB-1 MB - PT-3/CP PT-2 PT-3 PT-3 PT-2 PT-2 PT-5 PT-2 GL - PT-3/CP PT-2 PT-3 PT-3 PT-2 PT-2 PT-5 PT-2 PT-10 MP PT-3/CMU PT-2 PT-3 PT-3 PT-2 PT-2 PT-5 PT-2 BB GL PT-3/CMU-1/BB PT-7/CP/CONC. GL PT-8 BB GL BB PT-8 PT-2 PT-8 PT-5 PT-7 PT-5 PT-7 CT-3/PT-5 PT-7 PT-2 PT-7 CT-3/PT-5 PT-7 PT-2 PT-7 PT-2 PT-7 PT-2 PT-7 PT-3 PT-7 PT-5 PT-7 PT-2 PT-7 MP MP PT-3CMU PT-2 PT-3 PT-3 PT-2 PT-2 PT-5 PT-2 PT-10 MP PT-7 PT-7 PT-7 PT-7 PT-7 PT-7 PT-7 PT-7 PT-7 PT-8 MP A,E G F F F C H 9 FLOOR TRANSITION CT-2 AND WF-1 3" = 1'-0" 1 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com 09 65 00 CONTINUOUS RESILIENT BASE Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 ADJACENT FLOOR FINISH REFERENCE FINISH SCHEDULE FOR TYPE AND LOCATION RESILIENT BASE - RB-1, RB-2 6" = 1'-0" B C A,E G H 1 09 31 00 CERAMIC TILE (CT-1) (E) CONCRETE SLAB 09 64 13 RECLAIMED WOOD FLOORING (WF-1/ WF-2) SLOPE VIF C C B 09 31 00 CERAMIC WALL TILE WHERE OCCURS 09 31 00 GROUT JOINT 09 31 00 COVED TILE BASE 09 31 00 CERAMIC TILE BASE 09 31 00 TILE FLOORING 09 31 00 CERAMIC TILE FLOORING ISSUED FOR CONSTRUCTION 4" PT-3/CMU-1/CP GL PT-2 GL GL PT-2 PT-5 PT-5 CT-3/PT-5 PT-2 CT-3/PT-5 PT-2 PT-2 PT-2 PT-3 PT-5 PT-2 MP 6" PT-3/CP GL PT-2 GL GL/MP PT-2 PT-5 PT-5 CT-3/PT-5 PT-2 CT-3/PT-5 PT-2 PT-2 PT2 PT-3 PT-5 PT-2 - 1" MB MB MB RB-1 MB MB TB RB-1 TB RB-1 (E) RB-1 RB-1 MB RB-1 - 1" WF-1 WF-1 BB SSG WF-1 (E) WF-1 WF-1 WF-1 CT-2 (E) CT-2 (E) / ST (E) (E) (E) WF-1 (E) / ST CT-1 1/4" SALES DISPLAY STAIR VESTIBULE DISPLAY STORAGE ELEVATOR ELEV. LOBBY VESTIBULE UNISEX JANITOR UNISEX STOCK STAIR MACHINE ROOM BREAK ROOM FITTING ROOMS STOCK ENTRY 09 64 13 RECLAIMED WOOD FLOORING (WF-1/ WF-2) 1/8" MAX NAME 1/4" NUMBER LEVEL 1 100 101 102 103 104 105 106 107 108 109 110 111 112 114 115 116 117 118 119 LEVEL 2 200 201 202 203 205 206 207 208 209 210 211 212 09 31 00 CERAMIC TILE (CT-2) 4" TYP. AT RB-1; 6" TYP. AT RB-2 ROOM FINISH SCHEDULE SEE FINISH SCHED FOR LOCATION AND TYPE tva architects inc. GL MB 2 2 2 C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:08 PM 2 MP PT-1 PT-2 PT-3 PT-4 PT-5 PT-6 PT-7 PT-8 PT-9 PT-10 RB-1 PORCELAIN, SIZE & COLOR TO BE SELECTED, MATCH (E) MALL TILE CERAMIC FLOOR TILE (09 31 00) DAL TILE "KEYSTONES" SIZE: 2" HEX COLOR D311 BLACK GROUT: CHARCOAL #60 CERAMIC WALL TILE (09 31 00) DESIGN & DIRECT SOURCE (503.525.0600) SIZE: 2-3/4X8-3/4 COLOR: DOVER WHITE GROUT: CHARCOAL #60 RUNNING BOND PATTERN INCLUDE COVE BASE & BULLNOSE EDGE GLASS (08 41 26) METAL BASE (05 58 00) 2" X 1.25" X 1/8" METAL ANGLE WITH COUNTERSUNK FASTENERS AT 16" O.C. MAX. , MTL-1 FINISH METAL PANEL (05 58 00) SW 6991 BLACK MAGIC, ACRYLIC ENAMEL, SEMIGLOSS SW 7063 NEBULOUS WHITE, EGGSHELL SW 7064 PASSIVE, ACRYLIC PAINT, EGGSHELL SW 2849 WESTCHESTER GRAY, ACRYLIC ENAMEL, SEMIGLOSS SW 7669 SUMMIT GRAY, ACRYLIC PAINT, EGGSHELL SW 7064 PASSIVE, ACRYLIC ENAMEL, EGGSHELL, AT RAILINGS & MESH PANELS SW 7063 NEBULOUS WHITE,, ACRYLIC DRYFALL, FLAT SW 6991 BLACK MAGIC, ACRYLIC DRYFALL, FLAT NIKE ORANGE PANTONE PMS 172-C @ FEC SW 2849 WESTCHESTER GRAY, ACRYLIC PAINT, EGGSHELL VINYL BASE (09 65 00) SSG ST TB WF-1 ROPPE #100 BLACK, COVED, 4" HIGH STAINLESS STEEL ENTRANCE GRILLE (12 48 16) CONCRETE TOPPING, SEALED (03 30 23) CERAMIC TILE BASE (09 31 00) SEE CT-3 RECLAIMED WOOD FLOORING (09 64 13) 45 DEGREE DIAGONAL PATTERN IN RANDOM LENGTHS WF-2 2 1/4" WIDE WHITE MAPLE STRIP FLOORING CLEAR FINISH RECLAIMED WOOD COURT FLOORING (09 64 13) PLUG MOLD WHERE OCCURS 5 FLOOR THRESHOLD ST AND WF-1/WF-2 3" = 1'-0" NOTE: PROVIDE ADDITIONAL LAYER OF 5/8" TYPE 'X' GYP BOARD AT RATED WALL CONDITIONS WITH FLUSH WOOD BASE 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 CP CP-1 CT-1 STANDARD FACE CEMENT PLASTER (09 26 23) FAUX CONCRETE PLASTER FINISH CARPET TILE(09 68 13) CERAMIC FLOOR TILE (09 31 00) LOBBY FLOOR TILE-TBD CT-3 (E) CONCRETE SLAB 09 29 00 GYP BOARD OVER METAL STUD FRAMING COUNTERSUNK FASTENER 2" CMU-1 EXISTING OWNER-FURNISHED/CONTRACTOR-INSTALLED RECLAIIMED BLEACHER BOARD WITH CONTRACTOR-FURNISHED/CONTRACTOR-INSTALLED DISPLAY RAIL (CONTACT RTC INDUSTRIES INC AT 503.403.6011) CONCRETE UNIT MASONRY (04 22 00) UNPAINTED CT-2 1 FINISH LEGEND DESCRIPTION TAG (E) BB TILE BASE - TB-1, TB-2 6" = 1'-0" FINISH FLOOR, REFERENCE FLOOR PLANS AND FINISH SCHEDULE 03 30 23 SEALED CONCRETE TOPPING (ST) (E) CONCRETE SLAB 09 64 13 RECLAIMED WOOD FLOORING (WF-1/ WF-2) 05 58 00 1/8" METAL BASE Revisions: 1 1/4" STRUCTURAL FLOOR 1" F G H TB-2 09 64 13 RECLAIMED WOOD FLOORING (WF-1/WF-2) 1/4" C D E 2 1/4" B TB-1 1/4" ALL EXPOSED STL. STRUCTURE & FLOOR FRAMING, AND SPRINKLER PIPING SHALL BE PAINTED THE CEILING COLOR AS INDICATED. EXPOSED MECHANICAL DUCTWORK IN THIS AREA SHALL BE PAINTED PT-8. ALL CONC. & FAUX CONC. (CP) CONDUIT AND ASSOCIATED TRANSITIONS, JBOXES, ETC. IN THIS AREA SHALL REMAIN UNPAINTED FINISH DESIGNATIONS ARE FOR FITTING ROOM GENERAL AREAS; SEE INTERIOR ELEVATIONS AND ENLARGED FLOOR PLANS FOR WALL & FLOOR FINISHES INSIDE INDIVIDUAL FITTING ROOMS RESILIENT BASE & PAINT FINISH AT GYPSUM BOARD WALLS ONLY IN THESE ROOMS SEE DOOR SCHEDULE FOR DOOR & FRAME PAINT COLORS PAINT WALLS COLOR BLACK FROM FLOOR UP TO FIXTURE HEIGHT BEHIND ALL O.F.O.I. BLEACHER BOARD MERCHANDISE FIXTURES IN THESE AREAS EPOXY PAINT COATING AT JANITOR & TOILET ROOMS FINISHES BY ELEVATOR MFR. PAINT RAILING PT-6 1/2" A 1" TAG FINISH SCHEDULE REMARKS REMARK FLOOR TRANSITION CT-1 AND WF-1/WF-2 3" = 1'-0" nike retail interiors 8 METAL BASE DETAIL 3 6" = 1'-0" 6 No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 FLOOR THRESHOLD ST AND WF-1/WF-2 @ BOH 3" = 1'-0" 09 31 00 6" CERAMIC TILE FACE OF (E) COLUMN REFER TO INT. ELEVS. (E) CONCRETE SLAB + 1" 09 31 00 GROUT PACK 05 58 00 1-1/2"x1-1/4"x1/8" METAL BASE, LLV 03 30 23 SEALED CONCRETE TOPPING (ST) SLOPE 1/8"/FT FINISH FLOOR PERMIT SET FINISH SCHEDULES 1' - 0" (E) CONCRETE SLAB 2 1/4" WIDE WHITE MAPLE STRIP FLOORING, CLEAR FINISH Project # 1 1 7 FLOOR THRESHOLD (E) AND CT 3" = 1'-0" 4 DETAIL AT TOP OF WAINSCOT 6" = 1'-0" 10 12101 A0.05 METAL BASE AT CONC. & STEEL COLUMN 3" = 1'-0" Date: 02.22.2013 GENERAL NOTES: 1. ALL DIMENSIONS TAKEN TO FACE OF FINISH, UNLESS NOTED OTHERWISE. 2. SALES FLOOR AND STOCKROOM FIXTURES SHOWN FOR REFERENCE ONLY. SCOPE OF WORK PERFORMED BY OWNER'S VENDOR UNDER SEPARATE CONTRACT. DRAWING LEGEND: WALL OUTLET AT 16" A.F.F. U.N.O. WALL AND DATA AT 16" A.F.F. U.N.O. WALL DATA @ 11'-0" A.F.F. U.N.O CENTER OF MALL M-OB 12' - 3" L-OB IA 10' - 9" H-OB HA 5' - 3" 19' - 9" GA 18' - 3" E-OB FA 6' - 9" 25' - 0" EA 16' - 3" B-OB DA 8' - 9" 25' - 0" J FLOOR J-BOX RECESSED FLOOR OUTLET DETAIL 7/A8.01 1 7' - 3" RECESSED FLOOR AND DATA OUTLET DETAIL 7/A8.01 1 DOOR CONTACT, 1 A5.01 FIRE ALRM PULL-STATION EXISTING CANOPY ABOVE tva architects inc. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 1 INFILL STRUCTURAL SLAB 2 A7.03 NEW PARTITION 10' - 2 1/2" NEW CMU PARTITION, SEE A0.05 FOR DTLS 10' - 6 1/4" 2 A7.06 5' - 0 3/8" 1' - 6" 2 A7.05 AREA NOT IN SCOPE OF WORK PLUG MOLD ON FACE OF CURB NEW CONCRETE TOPPING SEE REFLECTED CEILING PLANS FOR SECURITY AND AUDIO DEVICE LOCATIONS 7 PLUG MOLD AT 8'-3" A.F.F. 13 104A SSG WF-1 4D Y 1A 11 3B Y WF (E) DISPLAY 104 3B Y 6 UP 11' - 6 1/2" L 3/4" 3' - 6" L EQ EQ 1' - 9 1/2" 3' - 6" WF-1 FLOOR PATTERN BEGINS 3/4" 4B W 2' - 0" 3' - 6" 3' - 6" 3' - 6" EQ EQ EQ WOMEN'S PLUG MOLD 415 SF 3' - 6" EQ EQ SALES 100 12 100A EXTENTS OF FULL BASEMENT BELOW. 2 06 40 23 BLEACHER BOARD WALL 3 10 51 13 3-TIER LOCKERS AND WALLET LOCKERS 4 10 22 00 CHAIN LINK FENCING AND GATE 5 FIELD VERIFY DOOR LOCATION 6 G.C. TO CONFIRM (E) BASEMENT LEVEL WALL AND DOOR SEPARATING BASEMENT AND STAIR ARE 1-HR RATED. 7 (E) ROOF LEADER 8 BLEACHER BOARD END CONDITION, SEE 4/A8.02 9 PROVIDE LEVEL 03 30 23 CONCRETE TOPPING PER INDICATED DIMENSION AT DOOR. TAPER CONCRETE TOPPING DOWN TO FLUSH CONDITION AS INDICATED. 10 PROVIDE FAUX CONCRETE CEMENT PLASTER FINISH OVER 5/8" GREENBOARD OVER 1/2" FRT PLYWOOD. PROVIDE ADDITIONAL LATER OF GYP. BD BEHIND PLYWOOD AS REQUIRED TO ALIGN PLASTER FINISH FACE OF ADJACENT STOREFRONT MULLION. 11 CMU WALL ABOVE METAL-FRAMED SUPPORT WALL. REFER TO INTERIOR ELEVATIONS AND DETAIL. 12 RECESSED CROWD CONTROL BARRIER. REFER TO DETAIL 5/A8.01 13 FOR FAUX CONCRETE CEMENT PLASTER FINISH, PROVIDE (1) LAYER 5/8" GREENBOARD OVER (E) GYP. BD. SURFACE FOR FULL HEIGHT AND WIDTH OF WALL. 14 PRINTER SHELF, 12"x20" PLAM FINISH, 24" A.F.F. 15 SAND (E) WALLBOARD COMPOUND AS REQUIRED AND PREPARE WALL TO RECEIVE PAINT. 16 TAPE AND MUD (E) GYPSUM BOARD, SAND, AND PREPARE WALL TO RECEIVE PAINT. 17 AT INDICATED LOCATION, APPLY (1) LAYER 5/8" TYPE 'X' GYPSUM BOARD, CONT. FIRE RATED ACOUSTIC SEALANT TOP AND BOTTOM, TAPE AND MUD, AND PREPARE WALL TO RECEIVE PAINT. WALL TO BE 1-HR RATED. 18 PROVIDE 1/2" FRT PLYWOOD BLOCKING AT INDICATED LOCATION. 1 3' - 6" 4B W EQ 4B W EQ 1 A6.01 2 2 4 1 DOORS 2 A6.01 A5.01 CT-1 WF-1 A6.01 3 EQ EQ 5A V 11 9" 9" 2' - 0" 3' - 10" EQ 1802 SF 1 7' - 9 1/2" 30' - 10" 1 5' - 0" (VIF) 4D Y 05 58 00 METAL HEADER 8' - 4 1/8" PLUG MOLD 2' - 4 1/2" (VIF) 23' - 9" 4D Y PLUG MOLD LIGHTBOX 8 8 TYP. 48"x18" hang 36"x18" hang 36"x18" hang 36"x18" 48"x18" equipment equipment equipment 48"x18" equipment JANITOR 110 48"x18" equipment equipment 4' - 0" 4A 1 3B W 6' - 0" 1B W UNISEX 111 4D Y STOCK 112 36"x18" 4" 3C Y (E) ST 36"x18" 36"x18" 1 6 STAIR 114 UP 4 DN (E) SC 1 A7.13 5 1' - 6" 1C W 12' - 1" 1 15 3 3C W 5B V ELEVATOR 106 ALIGN 6' - 11" 5 1/8" ELEC PANELS 9" MACHINE ROOM 115 14 24 00 NEW HYDRAULIC ELEVATOR 1 SLOPE 1/8"/FT equipment equipment equipment 3B W 115A 3D Y 5B V ELEV. LOBBY 107 2 4' - 5 1/4" REF. 3C W 6' - 0" 36"x18" +42 ALIGN 36"x18" BREAK ROOM 116 equipment equipment 116A 3.6 OB 15 3D Y 6' - 1 1/2" 4C W 1 111A 2 4B Y 36"x18" 3D Y 2 A7.01 5B V 3' - 3 1/8" (VIF) 4B Y 3D Y 5A V 8' - 4" 4B Y 117A 4B Y 3D Y CT-2 WF-1 117B 117D 6' - 0" 1' - 7 1/2" (VIF) 4B Y 3D Y 15 48"x18" hang 3B Y 1 TICKET PRINTER 48"x18" 4B Y 117C 7' - 3 1/4" 16 16 16 SLOPE 1/8"/FT shoes 48"x30" (E) ST48"x30" 36"x18" 2' - 8 3/4" hang 4B Y 4' - 0" 48"x18" hang 3B 4B Y Y 4B Y 3' - 2" 48"x18" hang 48"x18" 112A ST WF-1 48"x18" hang 48"x18" 5' - 2" (VIF) SLOPE 1/8"/FT 48"x18" hang 48"x18" UNISEX 109 HEADER 3D Y (E) ST 48"x18" shoes shoes 4' - 10" shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" shoes shoes 48"x30" 36"x18" 14 36"x18" . 112B (E) SC 48"x18" 5' - 0" 36"x18" 18 2 4D Y 11 1/4" 48"x18" 9 4D Y 2 4B Y FEC 110A 48"x18" STOCK 118 3B Y 1' - 6 1/4" (VIF) 48"x18" (E) ST 1 ST WF-1 1' - 6 1/4" VESTIBULE 109A CT-2 WF-1 108 8 FITTING ROOMS 117 2' - 6" 15 48"x30" 14' - 6 1/2" 1 3B W 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" hang hang hang 48"x30" 48"x30" 48"x30" hang 48"x30" 48"x18" hang 48"x18" hang 48"x18" 4D W 118A SLOPE 1/8"/FT 2 8 2' - 1" 2' - 1" 1D W 1 A7.09 ALIGN 7' - 0 3/4" SEATING SEATING TREADMILL ALIGN TREADMILL 4' - 10 1/4" SEATING SEATING SEATING SEATING RUN 4' - 10 1/4" 10' - 2 1/2" (VIF) 7' - 9 1/2" LIVE 1D W 2D W 1 A7.10 5 1 05 58 00 METAL HEADER PLUG MOLD EQ L 1 A6.01 LIVE PLUG MOLD 4D Y EQ RUN CLUB ACC 2D W EQ TRAIN ENTRY 119 WOMEN'S RUN 3A INNOVATION CASE 935 SF 330 SF EQ SEATING EQ SEATING SEATING MEN'S EQ SEATING SEATING EQ (E) CT-1 DIGITAL SEATING INNOVATION CASE SEATING A8.02 SEATING EQ 10 2.8 OB 3-OB 17 . 100B ISSUED FOR CONSTRUCTION 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 6' - 8 1/2" EQ STORAGE 105 PLUG MOLD 40' - 3 1/2" L 1 4' - 10" 4' - 10" PLUG MOLD 1 EQ 6' - 8" A7.05 4 5B U PLUG MOLD 16' - 8" 1 SHEET NOTES 1' - 6" HEADER ABOVE PLUG MOLD AT STOREFRONT SILL 1' - 9 1/2" 8' - 4" 5B U 4' - 10" 700 SF 8' - 4" 4' - 7 1/2" 10 4B W MEN'S FEC 6' - 6 5/8" 2 5B 7' - 4" U A8.02 L PLUG MOLD 10 1 L DISPLAY 101 2A 2B Y 2B Y PLUG MOLD AT 10'-0" A.F.F. 5A V nike retail interiors A7.06 WF-1 SSG 2B Y VESTIBULE 103 103A 2' - 0 1/2" STAIR 102 8' - 7" 11' - 5 3/8" 105A 4' - 8 1/2" 2-OB (E) FG (E) Revisions: 5B V 1 16 No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 9 2' - 8" 1 1 16 1 A7.11 SERVICE AREA 113 5A 4-OB PERMIT SET C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:11 PM LEVEL 01 PLAN Project # 12101 A2.01 1 LEVEL 01 - FLOOR PLAN 3/16" = 1'-0" Date: 02.22.2013 GENERAL NOTES: 1. ALL DIMENSIONS TAKEN TO FACE OF FINISH, UNLESS NOTED OTHERWISE. 2. SALES FLOOR AND STOCKROOM FIXTURES SHOWN FOR REFERENCE ONLY. SCOPE OF WORK PERFORMED BY OWNER'S VENDOR UNDER SEPARATE CONTRACT. DRAWING LEGEND: WALL OUTLET AT 16" A.F.F. U.N.O. M-OB L-OB IA H-OB HA GA E-OB FA EA B-OB DA CENTER OF MALL J 12' - 3" 10' - 9" 5' - 3" 19' - 9" 18' - 3" 6' - 9" 25' - 0" 16' - 3" 8' - 9" 25' - 0" 7' - 3" WALL AND DATA AT 16" A.F.F. U.N.O. tva architects inc. WALL DATA @ 11'-0" A.F.F. U.N.O 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com FLOOR J-BOX RECESSED FLOOR OUTLET DETAIL 7/A8.01 1 RECESSED FLOOR AND DATA OUTLET DETAIL 7/A8.01 1 DOOR CONTACT, Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 1 FIRE ALRM PULL-STATION 1 A5.01 INFILL STRUCTURAL SLAB NEW PARTITION NEW CMU PARTITION, SEE A0.05 FOR DTLS 4 A7.04 AREA NOT IN SCOPE OF WORK 3 A7.06 1 4 NEW CONCRETE TOPPING 1' - 0" SEE REFLECTED CEILING PLANS FOR SECURITY AND AUDIO DEVICE LOCATIONS PLUG MOLD AT 8'-3" A.F.F. 2-OB LIGHTBOX LIGHTBOX LIGHTBOX S SIM ALIGN SEATING 6 A6.02 SEATING 1 2 DOORS AND FULL COURT FLOORING PATTERN A6.02 7' - 6" shoes 48"x18" t-bins 48"x18" 7 ELEC PANELS 6 FRAMING INFILL AT REMOVED FLOOR ACCESS HATCH. REF STRUCT. 7 (E) ACCESS HATCH AT FLOOR TO REMAIN. 8 FOR FAUX CONCRETE CEMENT PLASTER FINISH, PROVIDE (1) 5/8" GREENBOARD OVER (E) GYP. BD. SURFACE FOR FULL HEIGHT AND WIDTH OF WALL. CMU WALL ABOVE METAL-FRAMED SUPPORT WALL. REFER TO INTERIOR ELEVATIONS AND DETAIL. TAPE AND MUD (E) GYPSUM BOARD, SAND, AND PREPARE WALL TO RECEIVE PAINT. 36"x18" No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 equipment equipment Revisions: (E) 1' - 7" MIN. VIF PERMIT SET EQ OFFICE 206 3B Z 1 207A 2' - 6" 3D W 205A CP (E) 206A CP (E) 4" ALIGN 3D W 3' - 2" PLUG MOLD AT TOP OF BACKSPLASH 4" 3B W BLEACHER BOARD END CONDITION, SEE 4/A8.02 equipment 48"x18" 48"x18" SLOPE 1/8"/FT (E) SC ALIGN 6' - 11" 5B 5 1/8" V 5' - 0" t-bins DN A8.03 5 equipment 208A SLOPE 1/8"/FT 5' - 0" 3B Y ST WF-2 FEC (E) ST t-bins t-bins 36"x15" STAIR 203 1 3 (E) ROOF DRAIN ELEVATOR 202 equipment 36"x15" PRINTER 4 ISSUED FOR CONSTRUCTION 5B V 8' - 4" 48"x15" A6.02 6 t-bins 36"x15" 36"x15" OPS 48"x30" 5B V 1 1B Y t-bins PRINTER SHELF, 12"x20" PLAM FINISH, 24" A.F.F. 2 2B Y 36"x15" 14 24 00 NEW HYDRAULIC ELEVATOR 9' - 7 1/4" 5A C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:14 PM 3 1/2" shoes 48"x30" 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" 48"x30" shoes shoes shoes 48"x30" shoes 48"x30" 48"x30" shoes shoes 48"x30" shoes shoes shoes 48"x30" 48"x30" shoes shoes shoes 48"x30" 48"x30" shoes shoes hang hang 36"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 48"x30" SHIP/REC. 207 9' - 11 7/8" 4-OB 5B V (E) ST t-bins 1 1 A7.01 5 48"x15" 10 ALIGN (VIF) 1B Y 2' - 1 1/2" (VIF) 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" 12' - 9 3/8" (VIF) 36"x30" hang hang 42"x30" hang hang 36"x30" hang hang 36"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 4D Y shoes 7 36"x30" 48"x30" 36"x15" shoes shoes 48"x30" 48"x15" 48"x15" shoes 48"x15" shoes 48"x30" 48"x15" shoes 48"x30" 48"x15" shoes 4B Y 48"x30" 48"x15" shoes 4B Y 4B Y shoes 4B Y visual 210A 48"x15" shoes 4B Y 4B Y 48"x15" 48"x15" 3B Y 3B Y 209A 209D 4B Y shoes 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" 4B Y FITTING ROOMS 209 3B Y 209B 16 16 SLOPE 1/8"/FT 4' - 1 1/2" (E) ST shoes shoes 48"x30" hang 36"x30" TELE/DATA 2 210 AV 36"x15" PRINTER hang 42"x30" hang hang 36"x30" 3' - 2 1/2" 209C 4D Y 11' - 10 5/8" (VIF) 2 3B Y 3B Y shoes HEADER 3' - 2 1/2" 3 4D Y 5 42"x30" shoes 48"x30" shoes shoes 48"x30" 48"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" hang hang 36"x30" 42"x30" 9 STOCK 208 48"x18" WF SC 211A (E) ST shoes 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes shoes 48"x30" 48"x30" 48"x30" shoes 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" shoes shoes 48"x30" 48"x30" 11' - 1 3/4" 7 4D W SLOPE 1/8"/FT 4' - 10" 48"x30" shoes 48"x30" shoes 48"x30" shoes 48"x30" shoes 48"x30" shoes 48"x30" shoes 48"x30" shoes shoes shoes 48"x30" shoes 5' - 0 5/8" 42"x30" hang 3.6 OB 48"x30" 48"x18" 48"x30" hang 4D Y shoes 48"x18" 4A 1B Y 48"x30" hang 48"x30" 4D Y 208B ST WF-2 10 1/8" 5' - 2 1/8" 4D Y ALIGN 5 1B Y DISPLAY 211 4D Y 5' - 0" 6 BLEACHER LIGHTBOX 4D Y EQ shoes PLUG MOLD LIGHTBOX 3A Y 5 42"x30" SEATING 1 A7.12 EQ shoes A6.02 PLUG MOLD 1 BLEACHER 7' - 5 1/4" 14' - 9 1/2" (VIF) SEATING 2' - 8 3/4" PLUG MOLD EQ +16" 15' - 4 7/8" EQ 1 48"x30" 15' - 6" 1 1 1 48"x15" 1 48"x30" (E) 2" Ø ROOF DRAIN 4' - 7 1/2" 4' - 7 1/2" 1 +16" LIGHTBOX 4' - 6 1/4" +16" LIGHTBOX L 1 1 969 SF SEATING 1 1 SEATING ENTRY 212 L L 1 BLEACHER 3-OB MECCA / AF-1 1 1 1 4' - 7 1/2" 1 1230 SF 3A 42"x30" 7' - 6" BASKETBALL 3 1 SEATING 900 SF 1 (E) CT-1 13' - 9 1/4" JORDAN L 2.8 OB 1 48"x15" 2 TELE/DATA ROOM REQUIRES PLYWOOD BACK PANEL AND A SEPARATE COOLING UNIT. SEE MECH. 10 L CENTERLINE OF WOOD COURT FLOORING 13' - 11 1/2" 200B 1 A8.02 2 9 LIGHTBOX 22' - 9 1/2" CT-1 WF-2 5A V 10 3' - 3 1/8" (VIF) 200A 11 3 7' - 6" SALES 200 LEATHER COLUMN WRAP O.F.O.I. 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 10' - 0" A6.02 1 nike retail interiors 300 SF L 4D W 24' - 11 1/4" S 4 4D W A5.01 14' - 0" FEC 15' - 0" L PLUG MOLD S 2 NIKE iD 1 BLEACHER 4D W EQ DN 1 UNIFORM CASE 18' - 5 1/2" SHEET NOTES 1 675 SF 1 480 SF 1 S 1 1B W 10 LIGHTBOX NFL EQ PRO LOCKERS 2A 2 2B W SIM YOUNG JORDAN / YOUNG ATHLETES 1270 SF PRO TRAINING 6' - 7 1/4" 1B W SEATING 8 STAIR 201 PLUG MOLD AT 10'-0" A.F.F. SEATING 1D W 1A ALIGN 1B W 6' - 8" SERVICE AREA 204 OFFICE 205 4 A7.11 EQ LEVEL 02 PLAN Project # 12101 A2.02 1 LEVEL 02 - FLOOR PLAN 3/16" = 1'-0" Date: 02.22.2013 REFLECTED CEILING PLAN LEGEND: AREA NOT IN SCOPE OF WORK NEW CONSTRUCTION EXISTING STRUCTURE CMU WALL (E) MECHANICAL DUCTS tva architects inc. (N) MECHANICAL DUCTS, SEE MECH. L#' - #" CENTER OF MALL M-OB L-OB IA H-OB HA GA E-OB FA EA TRACK LENGTH B-OB DA FIELD HOUSE FRAME BELOW 12' - 3" 10' - 9" 5' - 3" 19' - 9" 18' - 3" 6' - 9" 25' - 0" 16' - 3" 8' - 9" 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com 25' - 0" Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 7' - 3" 09 29 00 GYPSUM CEILING 09 51 13 SUSPENDED PANEL CEILING FAUX CONCRETE METAL DECK INFILL F1 FIXTURE F2 FIXTURE L25'-2" F2 F1 F19 F19 TR2 M3 L8'-6" TR2 15' - 0" P8 F5 FIXTURE TR2A L8'-6" F9 FIXTURE F2 F1 F37B STAIR 201 TR2 TR2 TR2A F4 FIXTURE M3 TR2 2' - 6" L8'-6" TR2 P8 11 A7.04 F19 OF STAIR BELOW L8'-6" TR2A 1 2' - 6" M3 1A 1 4' - 9 1/2" 5' - 7 1/2" 3' - 0" 2-OB F12 FIXTURE, SEE 13/A8.01 L37'-9" L8'-6" P8 P8 F13 FIXTURE, COORDINATED MOUNTING HEIGHT & LOCATION WITH ADJACENT DUCT & BOH SHELVING P8 STAIR OPENING BELOW EM1 TR2A EQ EM1 EQ EQ EM1 EQ EQ EQ EQ TR2 EQ F13A, MOUNTED ON TOP OF STRUCTURE, SEE 13/A8.01 EM1 EQ EQ F19 FIXTURE TR2 TR2 14' - 0" 2A RF 10' - 9 1/8" M3 F4 P8 P8 F5 F4 F1 P8 P8 2 X 4 TROFFER P8 EQ EQ EQ EQ M2 EQ EM1 1 EM1 EM1 L38'-0" EM1 2 A8.06 TR2 5' - 10 1/4" 26' - 0" F4 VIF VIF L33'-0" SALES 200 SIM 1 14' - 0" L38'-0" EM1 L36'-0" L36'-0" F2 F1 P8 P8 P8 VIF 2 EM1 A8.06 SIM P8 2 UNISTRUT SYSTEM ALIGN WITH UNDERSIDE OF ADJACENT STRUCTURE, SEE STRUCTURAL 2 SKYLIGHT ABOVE VIF F4 L63'-6" 7 SUBWOOFER A8.06 SPEAKER 7-1 L12'-0" L6'-0" 1 A8.06 SIM 6' - 0" 05 58 00 METAL PANEL 2 9' - 3 3/4" FITTING ROOMS 209 V.I.F VIF 2 A8.06 F2 TR2 P7 EM1 F9 EQ 1' - 8 1/2" F13 4A 6' - 3 1/2" 9' - 0 1/2" 2' - 8 7/8"2' - 8 3/8" TR2 3.6 OB L3'-0" EQ L3'-0" EQ EM1 EQ F13 L3'-0" 12' - 0" EM1 SHOPPER TRACK 2' - 0 1/2" 1' - 11 1/2" 4' - 0" EM1 2' - 0 1/2" 1' - 11 1/2" 2' - 0" L8'-0" EQ P7 2' - 3"2' - 1 1/2" P7 M4 EQ EQ P7 M4 EQ EQ P7 M4 2' - 9" 2' - 8 1/2" 21' - 0" ELEVATOR 202 REMOTE CONTROL EXIT SIGN EMERGENCY LIGHT TR2A SUPPLY DIFFUSER P7 RETURN REGISTER M4 HORN STROBE, CEILING/HORIZONTAL SURFACE MOUNTED SPEAKER/STROBE, WALL MOUNTED AT 6'-8" AFF F13 F13 RF F37 STOCK 208 8' - 0" TR2 CONT. IN POCKET MOTION DETECTOR 2 F13 5' - 2 7/8" RADIO FREQUENCY OFOI DEVICES CAMERA IP F2 F36B 2' - 0 1/2" 1' - 11 1/2" 4' - 0" F1 F2 CEILING-MOUNTED SPEAKER CAMERA ANALOG S F4 F4 2 RF 2" EM1 12' - 6" EQ A8.06 S 1 M2 M2 4' - 0" METAL DECK INFILL 1 SPEAKER 7-2 L9'-6" 8' - 0" 23' - 0" F2 F1 TR2A 15' - 2 1/2" TRACK 7' - 9 1/4" EQ TR2A L39'-6" M3 TRACK, MOUNTED ON F.H. FRAMES @ 8'-0" AFF A8.06 6' - 11" A8.06 4 EM1 7 2 VIF TR2 F4 V.I.F KNEE BRACING PROJECTION 4 1/4" 2 TR2A TRACK SUSPENDED FROM UNISTRUT @ 11'-0" AFF. UNLESS NOTED 2 VIF 4 1/4" EM1 F39 KV FIXUTRE, MOUNTED IN ELEVATOR PIT VIF P8 TR2 TRACK MOUNT AT BOTTOM OF JOIST 4 EQ P8 8' - 9 1/2" F4 P8 P8 F4 7' - 3 1/4" L6'-0" TR2 L6'-0" F1 14' - 0" 2' - 0" EM1 RF TR2 M2 FIXTURE, MOUNTED IN O.F.O.I DISPLAY M4 FIXTURE (VERTICAL) 12' - 8 3/4" P8 1 L24'-6" P8 FIXTURE @ 13'-4" AFF, HUNG FROM UNISTRUT, TYP. 8' - 5 1/8" F4 EM1 1 L36'-0" F1 6' - 11 3/4" 5' - 7 1/4" L33'-0" P7 FIXTURE @ 10'-0" AFF L40'-6" 2.8 OB 3-OB F39 FIXTURE, MOUNT ON FACE OF COLUMN P8 16 19' - 4 3/4" P8 L33'-0" EQ P8 3A F37B FIXTURE VARIES WITH BOTTOM OF JOIST P8 F1 L38'-0" 2 F36C FIXTURE, MOUNTED AT 11'-6" AFF F4 F1 F4 F36B FIXTURE F1 VARIES WITH BOTTOM OF JOIST ISSUED FOR CONSTRUCTION F35 FIXTURE TR2 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 5' - 3" TR2 nike retail interiors 5' - 6" TR2 Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 SHEET NOTES F13 F13 EQ F13 STAIR 203 EQ 1 TRACKS SUSPENDED FROM UNISTRUT, LEVEL WITH BOTTOM OF DUCT. SEE 9/A8.01 2 TRACK MOUNTED TO ADJACENT VERTICAL SURFACE. SUPPLY DUCT LEADING TO ADJACENT TENANT RETURN DUCT LEADING TO ADJACENT TENANT 8' - 0" F13 EXISTING 4" SPRINKLER PIPE LEADING TO ADJACENT TENANT EQ EQ NOTE: SHIP/REC. 207 SUSPENDED TRANSFORMER. REF STRUCT. F13 RF 4-OB PROVIDE CONDUIT ROUTING PLAN FOR ALL LINE VOLTAGE AND LOW VOLTAGE LIGHTING DEVICES ON SALES FLOOR FOR APPROVAL PRIOR TO INSTALLATION. 2' - 0" 5A NO ROOF DECK PENETRATIONS WITH FASTENERS PROVIDE UNISTRUT SECURED TO BAR JOIST AT UNDERSIDE OF DECK FOR MOUNTING DEVICES, ETC. CONFIRM LAYOUT AND CONFIGURATION W/ ARCHITECT PRIOR TO INSTALLATION. EQ EQ EQ EQ PERMIT SET LEVEL 2 - RCP LIGHTING C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:17 PM 9' - 0" 9' - 0" Project # OFFICE 206 1 LEVEL 02 - RCP LIGHTING 3/16" = 1'-0" OFFICE 205 12101 A3.02A Date: 02.22.2013 2-OB 1A 2A 2.8 OB 9' - 2" 3A 4A 3-OB 11 14 10 A7.03 A7.03 A7.03 L-OB 10 99 00 DISPLAY RAIL tva architects inc. IA A7.03 TR2 11 F4 EQ 1A 2A 2.8 OB 14 A7.03 A7.03 6' - 0" 3 08 41 26 ALL-GLASS STOREFRONT EQ 1 5 A8.03 5 05 58 00 METAL PANEL, MTL-1 06 40 23 O.F.C.I. BLEACHER WALL 5 A8.04 NEUTRAL PIER 6" 2-OB 1A 2A 2.8 OB 11 14 A7.03 A7.03 10 A8.04 3A 3-OB 4A 10 A7.03 1' - 0" NEUTRAL PIER 38' - 4 5/8" 15' - 7" (5) EQ PANELS (2) EQ PANELS 6" N.I.C. N.I.C. 5 06 40 23 O.F.C.I. BLEACHER WALL 7 A8.03 3" 8' - 9 3/4" A8.04 8 A8.04 08 41 26 ALL-GLASS STOREFRONT 14 5 A8.04 20 A8.04 Revisions: FIN. FLOOR - LEVEL 1 970' - 1" 23 00 00 FIRE ALARM PULL-STATION A8.03 FIN. FLOOR - LEVEL 1 970' - 1" N.I.C. L.O.D. T.O.SLAB LEVEL 1 970' - 0" 08 41 26 2 KNURL ZONES ON DOOR HANDLES, TYP. SECTION AT MALL ENTRANCE - LEVEL 1 1/4" = 1'-0" 6" 16 3' - 8" MALL SIDE 9' - 0 1/8" MALL SIDE 08 41 26 ALL-GLASS ENTRANCE 10 EQ EQ EQ EQ EQ 05 58 00 METAL PANEL SOFFIT, MTL-1 12' - 7" OFOI SIGN 6' - 0" 19 A8.04 1' - 6" SIM 1 A8.04 06 40 23 O.F.C.I. BLEACHER WALL 9 A8.03 6" 1 1 10 A8.04 A7.03 ENLARGED PLAN - LEVEL 1 AT MALL 1/4" = 1'-0" T.O. SLAB LEVEL 2 988' - 0" 1 EQ 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 1 VIF 1 A7.03 F.O. MULLION T.O. SLAB LEVEL 2 988' - 0" EQ 1 2' - 3" F.O. MULLION EQ DIM TO LEASE LINE (VIF) 06 40 23 O.F.C.I. BLEACHER WALL DIM TO LEASE LINE (VIF ) 05 50 00 (E) COLUMN W/ METAL BASE, SEE DETAIL 10/A0.05 5 7/8" A7.03 4' - 7 3/4" 1 4 08 41 26 A8.04 ALL-GLASS STOREFRONT 13 A8.04 2' - 11 1/8" A7.03 6' - 0" 100B DISPLAY 4 101 1 ISSUED FOR CONSTRUCTION 2' - 3 1/8" 9' - 6" 100A CT-1 WF 7 STOCK 118 A7.03 (E) CT-1 IA 6 10 17 A8.04 2' - 11 1/2" 6 A8.04 15 4A nike retail interiors 24 A8.04 1 L-OB A7.03 3-OB SALES 100 11 1' - 7" 5 7/8" ALIGN 7 5/8" (VIF) A7.03 3A WALL TO TERMINATE ON B.O. CONCRETE BEAM ABOVE. VERIFY IN FIELD. FEC IA Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 EQ ENLARGED - DISPLAY 101 RCP 1/4" = 1'-0" 2-OB 2 EQ 05 58 00 METAL PANEL SOFFIT, MTL-1 10 99 00 DISPLAY RAIL IA A8.05 EQ 8' - 11" 1 ALIGN ALIGN 1 15 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com 10 SECTION AT MALL ENTRANCE - LEVEL 1 1/4" = 1'-0" 3 MALL ELEVATION - LEVEL 1 - EAST 1/4" = 1'-0" EQ EQ 08 41 26 ALL-GLASS STOREFRONT 1 EQ 08 41 26 KNURL ZONES ON DOOR HANDLES, TYP. 05 58 00 METAL BASE AT (E) COLUMN SEE DETAIL 10/A0.05 2 EQ 1 PROVIDE POWER @ OFOI SIGN 06 40 23 O.F.C.I. BLEACHER WALL L.O.D. FIN. FLOOR - LEVEL 1 970' - 1" T.O.SLAB LEVEL 1 970' - 0" No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 1 IA L-OB L-OB FIN. FLOOR - LEVEL 2 988' - 1" FIN. FLOOR - LEVEL 2 988' - 1" T.O. SLAB LEVEL 2 988' - 0" T.O. SLAB LEVEL 2 988' - 0" 14 A8.04 IA IA IA 1 2A 15 1 10 A8.04 05 58 00 METAL PANEL, MTL-1 A7.03 10 A8.04 11 A7.03 OPP. 4" 15 A8.05 1 A8.04 15 A8.04 08 41 26 ALL-GLASS STOREFRONT 15 LETTERING AND SWOOSH DEBOSSED INTO METAL PANEL 08 41 26 ALL-GLASS STOREFRONT 6 A8.04 05 58 00 METAL BASE AT (E) COLUMN 05 58 00 METAL PANEL, MTL-1 08 41 26 ALL-GLASS STOREFRONT BEYOND 05 58 00 METAL BASE AT (E) COLUMN 16 A8.04 16 A8.04 T.O.SLAB LEVEL 1 970' - 0" 16 A8.04 3 A8.04 FIN. FLOOR - LEVEL 1 970' - 1" FIN. FLOOR - LEVEL 1 970' - 1" T.O.SLAB LEVEL 1 970' - 0" T.O.SLAB LEVEL 1 970' - 0" OPP. 19 A8.04 15 A8.04 08 41 26 ALL-GLASS STOREFRONT 16 A8.04 FIN. FLOOR - LEVEL 1 970' - 1" T.O.SLAB LEVEL 1 970' - 0" 06 40 23 O.F.C.I. BLEACHER WALL OPP. OPP. OPP. FIN. FLOOR - LEVEL 1 970' - 1" PERMIT SET 15 A8.04 10 A8.04 06 40 23 O.F.C.I. BLEACHER WALL A8.04 VIF 9' - 0 1/8" 08 41 26 ALL-GLASS STOREFRONT MALL SIDE C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:23 PM EST. 1972 SIM MALL ELEVATOR BEYOND 21 A8.04 2 5' - 0 1/2" 06 40 23 O.F.C.I. BLEACHER WALL 3" 6" 05 58 00 METAL PANEL, MTL-1 OFOI SIGN EQ 12 EQ 05 58 00 METAL PANEL MTL-1, COORDINATE CUT-OUT FROM OWNER-FURNISHED ARTWORK OPEN Project # PROVIDE POWER FOR SIGN A8.04 FIN. FLOOR - LEVEL 1 970' - 1" T.O.SLAB LEVEL 1 970' - 0" MALL ENTRANCES LEVEL 1 FIN. FLOOR - LEVEL 1 970' - 1" 12101 A7.03 T.O.SLAB LEVEL 1 970' - 0" 1 SECTION AT MALL ENTRANCE - LEVEL 1 15 1/4" = 1'-0" SECTION AT MALL ENTRANCE - LEVEL 1 11 1/4" = 1'-0" MALL ELEVATION - LEVEL 1 - NORTH 7 1/4" = 1'-0" DISPLAY ELEVATION - LEVEL 1 - SOUTH 6 1/4" = 1'-0" MALL ELEVATION - LEVEL 1 - SOUTH 5 1/4" = 1'-0" DISPLAY ELEVATION - LEVEL 1 - EAST 4 1/4" = 1'-0" Date: 02.22.2013 2A 2.8 OB 3A 3-OB 4A 3.6 OB 10 7 9 A7.04 A7.04 EQ EQ EQ EQ A7.04 10 99 00 DISPLAY RAIL EQ TRACK LIGHTING L-OB ALIGN TYP. 11 tva architects inc. 1 NEUTRAL FRAME 10" A8.05 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com TRACK LIGHTING 08 41 26 ALL-GLASS STOREFRONT 10 99 00 DISPLAY RAIL Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 IA ENLARGED - DISPLAY 20 RCP 1/4" = 1'-0" 2.8 OB 3' - 10 5/8" 8 A7.04 A7.04 10' - 1 1/2" (VIF) 6' - 0" 2" 6' - 0" EQ EQ EQ 5 A8.04 06 40 23 O.F.C.I. BLEACHER WALL 9' - 6 7/8" 2' - 10 5/8" A7.04 3 14 A8.03 5 DISPLAY 211 A7.04 08 41 26 ALL-GLASS ENTRANCE 05 58 00 METAL BASE AT (E) STL COLUMN, SEE DETAIL 10/A0.05 1 1 6 WF SC A7.04 EQ 08 41 26 ALL-GLASS STOREFRONT 6 A8.03 EQ PLUG MOLD AT SILL ISSUED FOR CONSTRUCTION 211A 13 A8.03 EQ OPP. IA 7' - 10 1/8" 2" A7.04 STOCK 208 SIM 2 5 A8.04 10 4 A8.04 (E) CT-1 A7.04 3.6 OB A7.04 8' - 2 1/2" 13 A8.04 200A L-OB 4A 9 9 A8.04 ALIGN 3-OB SALES 200 6 1/2" 1' - 7" 1 A8.04 7 3A 3' - 6 5/8" 2A 200B 1A 6' - 7 1/4" 2-OB CT-1 WF 11 05 58 00 METAL PANEL, MTL-1 NEUTRAL PIER 12' - 3 1/8" 1' - 0" A7.04 L-OB IA L-OB 2-OB 1A 2A 2.8 OB 7 T.O. ROOF STEEL 1006' - 0" A7.04 T.O. ROOF STEEL 1006' - 0" 1 OFOI SIGN 10 A8.04 10 A8.04 MALL SIDE N.I.C. 3A 3-OB 4A 3.6 OB 8 9 10 A7.04 A7.04 A7.04 14' - 11 3/8" 56' - 1" (2) EQ PANELS (8) EQ. PANELS N.I.C. 1' - 0" 06 40 23 O.F.C.I. BLEACHER WALL 7 1 1 5 A8.03 A8.03 A8.04 22 A8.04 A8.04 10' - 8 5/8" 05 58 00 METAL PANEL, MTL-1 06 40 23 O.F.C.I. BLEACHER WALL 3" 5 6' - 0" MALL SIDE 23 A8.04 7 T.O. SLAB LEVEL 2 988' - 0" IA 10 SECTION AT MALL ENTRANCE - LEVEL 2 1/4" = 1'-0" IA L-OB N.I.C. 1 06 40 23 O.F.C.I. BLEACHER WALL 08 41 26 ALL-GLASS ENTRANCE 08 41 26 KNURL ZONES ON DOOR 2 HANDLES, TYP. MALL ELEVATION - LEVEL 2 - EAST 1/4" = 1'-0" 05 58 00 METAL BASE AT (E) STL COLUMN, SEE DETAIL 10/A0.05 FIN. FLOOR - LEVEL 2 988' - 1" 08 41 26 ALL-GLASS STOREFRONT L.O.D. T.O. SLAB LEVEL 2 988' - 0" 1 A8.04 4A 3.6 OB 9 1 11 A8.04 A7.04 09 29 00 5/8" GYP. BOARD, PT-8 5 4' - 9" C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:28 PM 06 40 23 O.F.C.I. BLEACHER WALL 11 A8.04 ALIGN JT W/ BLEACHER BD BEYOND 08 41 26 ALL-GLASS STOREFRONT 05 58 00 METAL PANEL, MTL-1 12 12 3 A8.04 16 A8.04 A8.04 A8.04 OPP A8.04 A8.04 MALL SIDE FIN. FLOOR - LEVEL 2 988' - 1" A8.04 FIN. FLOOR - LEVEL 2 988' - 1" 2 06 40 23 O.F.C.I. BLEACHER WALL 9' - 4 3/4" 05 58 00 METAL PANEL, MTL-1 1 FIN. FLOOR - LEVEL 2 988' - 1" PROVIDE POWER FOR SIGN SECTION AT MALL ENTRANCE - LEVEL 2 1/4" = 1'-0" 9 SECTION AT MALL ENTRANCE - LEVEL 2 1/4" = 1'-0" 2 MALL ELEVATION - LEVEL 2 - NORTH 1/4" = 1'-0" 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 PERMIT SET MALL ENTRANCES LEVEL 2 08 14 16 FLUSH WOOD HIDDEN DOOR Project # A8.04 FIN. FLOOR - LEVEL 2 988' - 1" 3 1 12 EQ T.O. SLAB LEVEL 2 988' - 0" 8 1 1 05 58 00 METAL PANEL MTL-1, COORD. CUT-OUT FROM OWNER-FURNISHED ARTWORK 5 1 2 Description L-OB OFOI SIGN 5' - 0 1/2" 08 41 26 KNURL ZONE ON DOOR HANDLES, TYP. 8" MALL SIDE 1 Date 14 06 40 23 O.F.C.I. BLEACHER WALL 08 41 26 ALL-GLASS ENTRANCE No. L-OB 19 A8.04 05 58 00 METAL PANEL MTL-1, COORD. CUT-OUT FROM OWNERFURNISHED ARTWORK Revisions: IA T.O. ROOF STEEL 1006' - 0" 10 A8.04 9 A8.03 20 L-OB T.O. ROOF STEEL 1006' - 0" 06 40 23 O.F.C.I. BLEACHER WALL PROVIDE POWER @ OFOI SIGN L.O.D. L-OB 10 A8.04 1 6" FIN. FLOOR - LEVEL 2 988' - 1" T.O. SLAB LEVEL 2 988' - 0" SECTION AT MALL ENTRANCE - LEVEL 2 1/4" = 1'-0" A8.03 A8.04 FIN. FLOOR - LEVEL 2 988' - 1" 8 A8.04 05 58 00 METAL PANEL, MTL-1 10 EQ EQ EQ EQ EQ OFOI SIGN 1' - 6" 5 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 IA LEVEL 02 - FLOOR PLAN 1/4" = 1'-0" nike retail interiors 4 MALL ELEVATION - LEVEL 2 - SOUTH 1/4" = 1'-0" 5 DISPLAY ELEVATION - LEVEL 2 - EAST 1/4" = 1'-0" FIN. FLOOR - LEVEL 2 988' - 1" T.O. SLAB LEVEL 2 988' - 0" FIN. FLOOR - LEVEL 2 988' - 1" T.O. SLAB LEVEL 2 988' - 0" 6 DISPLAY ELEVATION - LEVEL 2 - SOUTH 1/4" = 1'-0" 12101 A7.04 Date: 02.22.2013 EA B-OB DA 6 21 20 10 A7.05 A8.05 A8.05 A7.05 (E) METAL PANEL SOFFIT, N.I.C. EQ. 5' - 0" EQ. ROOF DRAIN LIGHT FIXTURE CENTERED ON PANEL, TYP. 11 A8.05 A8.05 10' - 0" A8.05 6 1A EQ EQ EQ 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 TRACK LIGHTS, REF. ELECTRICAL PLANS SHOPPER TRACKER 05 58 00 SOFFIT PANEL JOINT tva architects inc. A8.05 1 EQ EQ 1 13 EQ EQ 2-OB 17 EQ 05 50 00 RECESSED DISPLAY RAIL, TYP. EQ A8.05 05 58 00 METAL PANEL SOFFIT 1 EQ EQ ENLARGED RCP - DISPLAY 104 RCP 1/4" = 1'-0" EA B-OB DA 6 10 (E) STOREFRONT, N.I.C. A7.05 CONCRETE CURB AND CURTAIN WALL BY OTHERS A7.05 08 14 16 METAL-CLAD WOOD DOOR SSG (E) 2-OB 1A A7.05 8' - 4 3/8" 19 A8.05 A7.05 9 3 A8.05 1 DISPLAY 104 STORAGE 105 5 A8.05 7 5 VESTIBULE 103 EQ 4D Y EQ. 06 40 23 BLEACHER BOARD ON EXTRUDED ALUMINUM CLIP A7.05 4 WF1 SSG 9 A8.05 1 SSG WF1 EQ 1 2 A8.05 ISSUED FOR CONSTRUCTION 1 4 A8.05 3 23 00 00 FIRE ALARM PULL-STATION EQ. 10' - 6 1/4" A7.05 08 41 26 ALL-GLASS ENTRANCES 2" (V.I.F.) 2-OB 1A 2-OB 1A 1A ENLARGED PLAN AT EXTERIOR ENTRANCE 1/4" = 1'-0" DA 2-OB B-OB 6 A7.05 N.I.C. N.I.C. N.I.C. (E) STEEL COLUMN, PAINTED CENTER EXIT SIGN ON DOORS, TYP. A8.05 A8.05 05 58 00 METAL PANEL FASCIA 3" 06 40 23 BLEACHER BOARD ON EXTRUDED ALUMINUM CLIP 7 19 A8.05 A8.05 05 58 00 METAL PANEL FASCIA 05 58 00 METAL PANEL SOFFIT ON METAL FRAMING 19 08 51 23 STEEL WINDOW SYSTEM 09 29 00 GYP. BOARD ON METAL FRAMING 08 51 23 STEEL WINDOW SYSTEM EXTERIOR WORK, N.I.C. 9 A8.05 9 18 A8.05 2" A8.05 FIN. FLOOR - LEVEL 1 970' - 1" N.I.C. GRILLES LIGHTING RECESS FIN. FLOOR - LEVEL 1 970' - 1" N.I.C. 14 1 A8.02 O.F.O.I FIXTURE 09 29 00 GYP. BOARD ON METAL FRAMING, PAINTED 8'-3" AFF PLUG MOLD 1 BEHIND DISPLAY FIXTURE 4 A8.05 1 05 58 00 METAL BASE, MTL-1 6" 1 EXTERIOR WORK, N.I.C. 10' - 0" 10' - 0" A8.05 08 14 16 FLUSH WOOD DOOR, PAINTED 09 29 00 GYP. BOARD, PAINTED EXTERIOR FACADE BEYOND EQ EQ EQ EQ EQ 23 05 01 6"x18" LINEAR BAR GRILLE SUPPLY. REF MECH. 23 05 01 6"x18" LINEAR BAR GRILLE RETURN REF MECH. EXIT SIGN 8 A8.05 21 A8.05 O.F.O.I FIXTURE 2 2 17 A8.05 1' - 6" 2" 1 A8.05 09 29 00 GYP. BOARD ON METAL FRAMING 17 13 13 20 A8.05 MECHANICAL DUCT, REFERENCE MECHANICAL DRAWINGS 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 2 nike retail interiors 1 22 A8.05 14 A8.05 N.I.C. FIN. FLOOR - LEVEL 1 970' - 1" FIN. FLOOR - LEVEL 1 970' - 1" 08 51 23 STEEL WINDOW SYSTEM A8.05 14 18 A8.05 A8.05 08 41 26 2 KNURL ZONES ON DOOR HANDLES, TYP. Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 08 41 26 ALL-GLASS ENTRANCES 10 SECTION AT EXTERIOR ENTRANCE 1/4" = 1'-0" 8 WEST ELEVATION AT EXTERIOR ENTRANCE 1/4" = 1'-0" 1A 6 SECTION AT EXTERIOR ENTRANCE 1/4" = 1'-0" 3 SOUTH ELEVATION AT EXTERIOR ENTRANCE 1/4" = 1'-0" 2-OB N.I.C. DA 20 OPP. A8.05 2-OB 10 6 1 1 A7.05 A8.05 A8.05 09 29 00 GYP. BOARD ON METAL FRAMING EQ. A8.05 N.I.C. EQ. PERMIT SET 1 A8.05 A8.02 10' - 0" 06 40 23 BLEACHER BOARD ON EXTRUDED ALUMINUM CLIP 3 08 14 16 FLUSH WOOD DOOR, PAINTED 08 14 16 FLUSH WOOD DOOR, METAL CLAD 3 2 3 A8.05 A8.05 4" 3' - 8" N.I.C. 1 A8.02 9 FIN. FLOOR - LEVEL 1 970' - 1" FIN. FLOOR - LEVEL 1 970' - 1" 10 1 A8.05 A8.02 EAST ELEVATION AT EXTERIOR ENTRANCE 1/4" = 1'-0" 7 DISPLAY 104 - SOUTH 1/4" = 1'-0" 06 40 23 O.F.C.I. BLEACHER BOARD ON EXTRUDED ALUMINUM CLIP NORTH ENTRANCE 23 00 00 FIRE ALARM PULL-STATION A8.05 (E) STEEL WINDOW SYSTEM 05 58 00 METAL WALL PANEL, MTL-1 4 4 A8.05 A8.05 10' - 0" 09 29 00 GYP. BOARD BEYOND, PAINTED C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:15:33 PM 1A 12 1 05 58 00 METAL WALL PANEL, MTL-1 Project # A8.05 FIN. FLOOR - LEVEL 1 970' - 1" FIN. FLOOR - LEVEL 1 970' - 1" 12101 A7.05 10 1 A8.05 5 VESTIBULE 103 - EAST 1/4" = 1'-0" 1 4 EAST ELEVATION - OUTSIDE OF VESTIBULE 1/4" = 1'-0" Date: 02.22.2013 (E) SKYLIGHT 10 A8.06 09 91 00 PAINT FINISH 09 91 00 PAINT FINISH (E) SKYLIGHT (E) SKYLIGHT tva architects inc. 09 91 00 PAINT FINISH 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com 09 22 16 (E) METAL FRAMING (E) SKYLIGHT CURB AND WATERPROOFING 05 31 00 PERFORATED METAL DECK AND CLOSURE ANGLE WITH 09 91 00 PAINT FINISH - SEE STRUCTURAL VIF (E) ROOF CONSTRUCTION 09 29 00 (N) 5/8" GYP. BOARD PAINT FINISH (E) SKYLIGHT CURB AND WATERPROOFING 09 91 00 (N) 5/8" GYP. BOARD PAINT FINISH. NO GYP. BOARD AT SIM. (E) ROOF CONSTRUCTION 05 31 00 AT SIM, PERFORATED METAL DECK AND CLOSURE ANGLE WITH 09 91 00 PAINT FINISH. SEE STRUCTURAL. 09 91 00 AT SIM, NO GYP. BD. REQUIRED ABOVE PERFORATED METAL DECK Robert Thompson, FAIA, Architect Georgia Registration No. RA013305 05 31 00 AT SIM, PERFORATED METAL DECK AND CLOSURE ANGLE WITH 09 91 00 PAINT FINISH. SEE STRUCTURAL. 09 91 00 GYP. BOARD W/ PAINT FINISH BEYOND (E) SKYLIGHT (E) STEEL STRUCTURE WITH 09 91 00 PAINT FINISH 09 29 00 NEOPRENE GASKET 1/2" 09 22 16 METAL FRAMING 09 22 16 METAL FRAMING 09 22 16 (E) METAL FRAMING (E) STEEL STRUCTURE WITH 09 91 00 PAINT FINISH (E) STEEL STRUCTURE WITH 09 91 00 PAINT FINISH 09 29 00 'J' BEAD 09 91 00 (N) 5/8" BOARD PAINT FINISH ISSUED FOR CONSTRUCTION 09 29 00 (N) 5/8" GYP. BOARD PAINT FINISH (E) ANGLES ALIGN NEOPRENE AT SKYLIGHT 3" = 1'-0" 7 SECTION - SKYLIGHT INFILL N-S 1 1/2" = 1'-0" 4 SECTION - SKYLIGHT INFILL E-W 2 1 1/2" = 1'-0" 1 SECTION - SKYLIGHT INFILL E-W 1 1 1/2" = 1'-0" NOTE: DETAIL RELOCATED FROM SHEET A8.01 3393 Peachtree Road NE Suites 3070 & 3070u 1st and 2nd Floors Atlanta, GA 30326 nike retail interiors 10 TRIM (E) FRAMING TO ALIGN W/ (E) ANGLES Revisions: No. Date Description 2 1 03.20.2013 ADD. 2 PERMIT SET C:\Users\erikd\Documents\12101-Nike Atlanta Interior_erikd.rvt 3/20/2013 8:27:32 PM DETAILS Project # 12101 A8.06 2 Date: 02.22.2013 tva architects inc. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com M-OB IA HA GA FA EA GENERAL NOTES DA A. B. C. D. 2 10"Ø LD 250 CFM 10 C S CO2 SENSOR E. 12"x12" TG F. 21 6 V1-06 8"Ø CD 150 CFM 10"Ø LD BELOW 8"ø 2-OB 12"x12" G. 1A H. 1 6 I. S V1-01 16"x8" SR 500 CFM 16"x8" SR 500 CFM UP 14"x8" SR 500 CFM 4 10"x10" 30"x10" SR 1000 CFM 18"x10" SR 750 CFM J. 32"x12" 12 12"x8" SR 250 CFM 14"x8" SR 500 CFM 32"x14" 12"x8" SR 250 CFM 12 12"x8" SR 250 CFM 12 12"x8" SR 250 CFM K L H 12 MECHANICAL CONTRACTOR SHALL INSTALL ALL DUCTWORK AS HIGH AS POSSIBLE TO STRUCTURE. COORDINATE THE LOCATION OF DUCTWORK AND EQUIPMENT WITH ALL OTHER TRADES AND WITH EXISTING DUCTWORK, STRUCTURE, PIPING SPRINKLER MAINS, AND ALL OTHER EXISTING CONDITION. CONTACT THE CONSTRUCTION MANAGER IMMEDIATELY IF CEILING CONFLICTS ARE ENCOUNTERED. ANY RELOCATION OF DUCTWORK OR EQUIPMENT REQUIRED BY THE MECHANICAL CONTRACTOR'S FAILURE TO COORDINATE NEW YORK WITH EXISTING CONDITIONS SHALL BE DONE AT NO EXTRA COST TO THE OWNER. ALL WORK SHALL BE IN STRICT ACCORDANCE WITH ALL FEDERAL, STATE AND LOCAL CODES AND ORDINANCES. MECHANICAL CONTRACTOR SHALL BE RESPONSIBLE FOR COORDINATION OF ALL TRADES, LANDLORD REQUIREMENTS, CEILING HEIGHTS AND EXISTING STRUCTURAL CONDITIONS PRIOR TO FABRICATION OF ANY DUCTWORK OR ORDERING OF ANY EQUIPMENT. MECHANICAL CONTRACTOR SHALL PROVIDE TENANT WITH AS-BUILT DRAWINGS AT THE COMPLETION OF THE PROJECT. REMOVE ALL EXISTING EQUIPMENT AND DUCTWORK NOT INTENDED FOR REUSE, DO NOT ABANDON. MECHANICAL CONTRACTOR SHALL PERFORM A PRE CONSTRUCTION CHECKOUT OF EQUIPMENT WITHIN THE SCOPE OF WORKSPACE. ANY DISCREPANCIES SHALL BE SUBMITTED IN WRITING TO THE BUILDING CHIEF ENGINEER SO THAT CONDITIONS CAN BE VERIFIED AND CORRECTED. CONTRACTOR SHALL BE RESPONSIBLE FOR ALL REPAIRS NOT NOTED DURING PRE CONSTRUCTION INSPECTION. ALL DRAWINGS ARE CONCEPTUAL AND SCHEMATIC AND ARE INTENDED FOR USE AS A GUIDELINE. THE CONTRACTORS ARE RESPONSIBLE FOR VERIFYING ALL FIELD CONDITIONS AND ADJUSTING OR MODIFYING THE SPECIFIC ELEMENTS OF THEIR WORK AS REQUIRED TO MEET THE DESIGN INTENT. MECHANICAL CONTRACTOR SHALL PROBIDE ADDITIONAL DRAWINGS, CALCULATIONS AND OTHER DOCUMENTATION REQUIRED FOR THE BUILDING DEPARTMENT. THE CONTRACTORS SHALL VISIT THE SITE TO DETERMINE CONDITIONS AFFECTING THE WORK. BIDS SHALL SERVE AS EVIDENCE OF KNOWLEDGE OF EXISTING CONDITIONS AND ANY MODIFICATIONS WHICH ARE REQUIRED TO MEET THE INTENT OF THE DRAWINGS AND SPECIFICATIONS. FAILURE TO VISIT THE SITE DOES NOT RELIEVE THE CONTRACTOR OF RESPONSIBILITY IN PERFORMANCE OF WORK REQUIRED DUE TO EXISTING CONDITIONS IN EVIDENCE. GC TO FIELD VERIFY DEMO SCOPE OF WORK PRIOR TO BID. REMOVE ALL EXISTING HVAC EQUIPMENT, DUCTWORK, ETC NOT INTENDED FOR REUSE. DO NOT ABANDON KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 ISSUED FOR CONSTRUCTION 2A A-CBX NEW VAV BOX WITH ELECTRIC REHEAT. COORDINATE ALL DUCTWORK PRIOR TO DUCTWORK FABRICATION. INSTALL DUCTWORK AS HIGH AS POSSIBLE. COORDINATE THE PATH OF THE DUCTWORK WITH THE LIGHTING PLAN, SPRINKLER PIPING, EXISTING STRUCTURE, AND ALL OTHER EXISTING CONDITIONS. (TYPICAL) 6 INSTALL NEW REMOTE SENSOR PROVIDED BY CSUSA. PROVIDE ALL CONTROL WORK AND WIRING TO HVAC EQUIPMENT AS REQUIRED PER THE MANUFACTURERS PRINTED INSTRUCTIONS. COORDINATE WITH BUILDING CONTROLS AND ELECTRICAL CONTRACTOR. 10 PROVIDE NEW CO2 SENSOR FOR DEMAND CONTROL VENTILATION. COORDINATE ALL CONTROLS REQUIREMENTS WITH CSUSA. GC TO UNDERCUT DOOR 1" FOR RETURN AIRFLOW. MOUNT SUPPLY AIR DEVICE ON BOTTOM OF DUCT. BALANCE TO THE SCHEDULED CFM. COVER DUCT OPENING WITH 1"X1" WIRE MESH SCREEN. EXTEND CONDENSATE LINE TO MOP SINK AND TERMINATE WITH AIR GAP. PROVIDE NEW PRESSURE SENSOR. COORDINATE ALL CONTROLS REQUIREMENTS WITH CSUSA. MOUNT LINEAR SUPPLY AIR DIFFUSER VERTICALLY, 2" BELOW FINISHED CEILING. MOUNT LINEAR TRANSFER AIR DIFFUSER VERTICALLY, 2" ABOVE FINISHED FLOOR. LINEAR TRANSFER AIR DIFFUSER TO BE OPEN TO STORAGE AREA FOR AIRFLOW. D-CBX 2.8 OB 11 12 13 15 E-CBX 3A 22"x10" SR 900 CFM 22"x10" SR 1000 CFM 17 22"x10" SR 900 CFM S P G-CBX 6 RTU-1 22"x10" 16"x6" SR 250 CFM 21 3-OB 1 16"x6" SR 250 CFM 22"x10" V1-05 22"x10" F-CBX 17 3393 Peachtree Road NE Atlanta, GA 32"x14" C-CBX 2 4 nike retail interiors KEYED NOTES B-CBX 24"x10" DL 1000 CFM 2 13 6 9450 CFM S V1-03 26"x26" 2 26"x20" V1-05 S C 6 10 4 1 12"x12" 8"Ø CD 150 CFM 11 11 11 8"ø 11 46"x22" 12"x12" RG 300 CFM 11 8"x8" EG 100 CFM 11 12"x10" 1 12"x6" SR 350 CFM 4"ø 4"ø 4"ø 4"ø 20"x14" 2 V1-02 12 8"x4" EG 50 CFM 6"ø 8"x8" EG 100 CFM 6"Ø CD 50 CFM 6"Ø CD 50 CFM 12 1"Ø COND. FROM ABOVE 1"Ø COND. 12"x6" SR 350 CFM 12"x6" SR 225 CFM C S 1 V1-04 20"x8" TG 1 2 S 12"x10" CRATE & BARREL 3 4 13 V1-04 8"ø RS & RL PIPING UP TO ROOF 13 12"x6" SR 300 CFM Date Description 1 2 03.15.2013 03.20.2013 ADD. 1 ADD. 2 4A 3.6 OB AC-2 6 No. 8"x16" 1 AC-2 12"x6" SR 225 CFM 8"x8" 3000 CFM 1"Ø COND. 12"x14" 16"x10" CO2 SENSOR RESTROOM 49 12"x6" SR 300 CFM 6 10 2 11 V1-03 Revisions: V1-01 48"x26" 15 16"ø 20"x14" 8"x4" 44"x14" 12"x6" SR 350 CFM 6"Ø CD 4"ø 50 CFM 24"x16" V1-02 20"x14" 26"x18" 4 34"x18" 20"x14" UP DN JANITOR 47 12"x6" SR 350 CFM REF. BREAK ROOM 37 PERMIT SET C:\Users\kneal\Documents\13272-2012-Mechanical-Niketown_Lenox_Kevin Neal.rvt 3/20/2013 9:49:31 AM LEVEL 01 HVAC PLAN 5A 4-OB Project # 12101 SHIPPING & RECEIVING 50 M2.01 L-OB 1 LEVEL 01 - HVAC PLAN 3/16" = 1'-0" H-OB E-OB B-OB Date: 02.22.2013 2 IA HA GA FA EA DA KEYED NOTES 1 3 2-OB 1A 5 EXISTING ROOFTOP AIR HANDLING UNIT TO REMAIN. BALANCE TO THE SCHEDULED CFM. RETURN TO LIKE NEW CONDITION, REPLACE FILTERS, CLEAN COILS, REPAIR COMPRESSORS/FANS, RECHARGE REFRIGERANT, ETC. PROVIDE CONDITIONING REPORT TO THE OWNER UPON COMPLETION OF WORK. MECHANICAL CONTRACTOR TO INSTALL NEW OUTSIDE AIR FLOW MEASURING STATION FURNISHED BY CSUSA. COORDINATE ALL CONTROLS REQUIREMENTS WITH CSUSA. PROVIDE ROOF MOUNTED CONDENSING UNIT AS SCHEDULED. MOUNT UNIT ON PATE EQUIPMENT RAILS. MAINTAIN ALL MANUFACTURER AND CODE REQUIRED CLEARANCES. PROVIDE REFRIGERANT PIPING PER MANUFACTURER GUIDELINES. VERIFY TOTAL LENGTH DOES NOT EXCEED MANUFACTURER GUIDELINES. PROVIDE LONG LINE ACCESSORIES AS REQUIRED. PITCH POCKETS AND WOOD BLOCKING NOT PERMITTED PER LANDLORD. SEE DETAILS ON M3.01 FOR ADDITIONAL INFORMATION. VERIFY EXACT LOCATION AND REQUIREMENTS WITH TENANT/LANDLORD PRIOR TO BID. PROVIDE NEW ROOF MOUNTED EXHAUST FAN. BALANCE TO THE SCHEDULED CFM. tva architects inc. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 2A ISSUED FOR CONSTRUCTION RTU TO BE REMOVED BY LL. nike retail interiors 3A 3-OB EXISTING LANDLORD RTU TO REMAIN. FIELD VERIFY EXACT LOCATION PRIOR TO BID FOR COORDINATION. 1 RS & RL PIPING UP THRU ROOF TO CU-1. CU-1 3 3393 Peachtree Road NE Atlanta, GA 2.8 OB 4A RTU-1 3.6 OB RS & RL PIPING UP THRU ROOF TO CU-2. CU-2 3 Revisions: No. Date Description 1 2 03.15.2013 03.20.2013 ADD. 1 ADD. 2 1 1 RTU-2 5A 4-OB 5 EF-1 PERMIT SET C:\Users\kneal\Documents\13272-2012-Mechanical-Niketown_Lenox_Kevin Neal.rvt 3/20/2013 10:24:03 AM ROOF HVAC PLAN Project # L-OB 1 ROOF HVAC PLAN 3/16" = 1'-0" H-OB E-OB B-OB 12101 M2.03 Date: 02.22.2013 SECTION 23 05 93.00 - TESTING, ADJUSTING AND BALANCING FOR HVAC PART 1 GENERAL 1.1 RELATED DOCUMENTS A. 1.2 SUMMARY A. This Section specifies the requirements and procedures total mechanical systems testing, adjusting, and balancing. Requirements include measurement and establishment of the fluid quantities of the mechanical systems as required to meet design specifications, and recording and reporting the results. B. Test, adjust, and balance the following mechanical systems: 1. Supply air systems, all pressure ranges including variable volume systems: 2. Return air systems. 3. Exhaust air systems 1.3 ACTION SUBMITTALS A. Agency Data 1. Submit proof that the proposed testing, adjusting, and balancing agency meets the qualifications specified below. B. Maintenance Data: Submit maintenance and operating data that include how to test, adjust, and balance the building systems. Include this information in maintenance data specified in Division 1. C. Certified Reports: Submit testing, adjusting, and balancing reports bearing the seal and signature of the Test and Balance Engineer. The reports shall be certified proof that the systems have been tested, adjusted, and balanced in accordance with the referenced standards; are an accurate representation of how the systems have been installed; are a true representation of how the systems are operating at the completion of the testing, adjusting, and balancing procedures; and are an accurate record of all final quantities measured, to establish normal operating values of the systems. Follow the procedures and format specified below: 1. Final Report: Upon verification and approval prepare final reports, type written, and organized and formatted as specified below. Submit 2 complete sets of final reports. 2. Report Format: Report forms shall be those standard forms prepared by the referenced standard for each respective item and system to be tested, adjusted, and balanced. Bind report forms complete with schematic systems diagrams and other data in reinforced, vinyl, three-ring binders. Provide binding edge labels with the project identification and a title descriptive of the contents. Divide the contents of the binder into the below listed divisions, separated by divider tabs: a. General Information and Summary b. Air Systems c. Temperature Control System D. Qualification Data: Within 30 days from Contractor's Notice to Proceed, submit 6 copies of evidence that TAB firm and this Project's TAB team members meet the qualifications specified in "Quality Assurance" Article. E. Contract Documents Examination Report: Within 30 days from Contractor's Notice to Proceed, submit 6 copies of the Contract Documents review report as specified in F. G. H. I. J. 1.4 A. B. C. D. E. "Preparation" Article. Include a complete set of report forms intended for use on this Project. Certified TAB Reports: Submit two copies of reports prepared, as specified in this Section, on approved forms certified by TAB firm. Sample Report Forms: Submit two sets of sample TAB report forms. Warranty submittals should be forwarded to Owner for review and approval by Owner's legal counsel. Warranties specified in this Section. QUALITY ASSURANCE Codes and Standards: 1. AABC: "National Standards for Total System Balance". 2. ASHRAE: ASHRAE Handbook, Systems Volume, Chapter 37, Testing, Adjusting, and Balancing. Agency Qualifications 1. The HVAC Contractor shall procure the services of an independent Balance and Testing Agency, approved by the Engineer, and a member of Associated Air Balance Council (AABC) or NEBB, which specializes in the balancing and testing of heating, ventilating, and air conditioning systems, to balance, adjust and test all air and water systems and equipment as herein specified. 2. All work by this agency shall be done under direct supervision of a qualified heating and ventilating Engineer employed by this agency. 3. All instruments used by this agency shall be accurately calibrated and maintained in good working order. The Balance and Testing Agency must provide the technicians with the following instruments for field use: 1. One set of pressure gages and fittings. 2. Dry bulb thermometer. 3. Wet bulb thermometer. 4. Thermocouple unit and thermocouples. 5. Set of balancing cork adjustment wrenches. 6. Portable field flowmeter. TAB Firm Qualifications: Engage a TAB firm certified by either AABC or NEBB. TAB Conference: Meet with Owner's and Architect's representatives on approval of TAB strategies and procedures plan to develop a mutual understanding of the details. Ensure the participation of TAB team members, equipment manufacturers' authorized service representatives, HVAC controls installers, and other support personnel. Provide seven days' advance notice of scheduled meeting time and location. 1. Agenda Items: Include at least the following: a. Submittal distribution requirements. b. The Contract Documents examination report. c. TAB plan. d. Work schedule and Project-site access requirements. e. Coordination and cooperation of trades and subcontractors. f. Coordination of documentation and communication flow. 2. Certification of TAB Reports: Certify TAB field data reports. This certification includes the following: a. Review field data reports to validate accuracy of data and to prepare certified TAB reports. b. Certify that TAB team complied with approved TAB plan and the procedures specified and referenced in this Specification. F. TAB Report Forms: Use standard forms from AABC's "National Standards for Testing and Balancing Heating, Ventilating, and Air Conditioning Systems." NEBB's "Procedural Standards for Testing, Adjusting, and Balancing of Environmental Systems." SMACNA's "HVAC Systems - Testing, Adjusting, and Balancing." TAB firm's forms approved by Architect. G. Instrumentation Type, Quantity, and Accuracy: As described in AABC's "National Standards for Testing and Balancing Heating, Ventilating, and Air Conditioning Systems H. Instrumentation Calibration: Calibrate instruments at least every six months or more frequently if required by instrument manufacturer. 1. Keep an updated record of instrument calibration that indicates date of calibration and the name of party performing instrument calibration. 1.5 SEQUENCING AND SCHEDULING A. Systems shall be fully operational prior to beginning procedures. B. Test, adjust, and balance the air systems before hydronic, steam, and refrigerant systems. C. Test, adjust and balance air conditioning systems during summer season and heating systems during winter season, including at least a period of operation at outside conditions within 5 deg F wet bulb temperature of maximum summer design condition, and within 10 deg F dry bulb temperature of minimum winter design condition. Take final temperature readings during seasonal operation. 1.6 PROJECT CONDITIONS A. Full Owner Occupancy: Owner will occupy the site and existing building during entire TAB period. Cooperate with Owner during TAB operations to minimize conflicts with Owner's operations. 1.7 COORDINATION A. Coordinate the efforts of factory-authorized service representatives for systems and equipment, HVAC controls installers, and other mechanics to operate HVAC systems and equipment to support and assist TAB activities. B. Notice: Provide seven days' advance notice for each test. Include scheduled test dates and times. C. Perform TAB after leakage and pressure tests on air and water distribution systems have been satisfactorily completed. 1.8 WARRANTY A. When warranties are required, verify with Owner's counsel that special warranties stated in this Article are not less than remedies available to Owner under prevailing local B. National Project Performance Guarantee: Provide a guarantee on AABC's "National Standards for Testing and Balancing Heating, Ventilating, and Air Conditioning Systems" forms stating that AABC will assist in completing requirements of the Contract Documents if TAB firm fails to comply with the Contract Documents. C. Special Guarantee: Provide a guarantee on NEBB forms stating that NEBB will assist in completing requirements of the Contract Documents if TAB firm fails to comply with the Contract Documents. Guarantee shall include the following provisions: 1. The certified TAB firm has tested and balanced systems according to the Contract Documents. 2. Systems are balanced to optimum performance capabilities within design and installation limits. PART 2 PRODUCTS (NOT APPLICABLE) PART 3 EXECUTION 3.1 PRELIMINARY PROCEDURES FOR air SYSTEM BALANCING A. Check filters for cleanliness. B. Check dampers (both volume and fire) for correct and locked position, and temperature control for completeness of installation before starting fans. C. Place outlet dampers in the full open position. D. Check fan rotation E. Air balance and testing shall not begin until the system has been completed and is in full working order. The Contractor shall put all heating, ventilating and air conditioning systems and equipment into full operation and shall continue the operation of same during each working day of testing and balancing. The contractor shall submit within 30 days after receipt of contract, 8 copies of submittal data for the testing and balancing of the air conditioning, heating, and ventilating systems. The Air Balance and Testing Agency shall provide proof of having successfully completed at least five projects of similar size and scope. F. Renovations: 1. In areas where existing air handling equipment or exhaust fans are being utilized, balancing contractor shall include the cost to pre-check each fan airflow (supply, return, exhaust) and any branch ductwork serving existing areas, prior to demolition and provide a report outlining existing air flows prior to any work. Any discrepancies of required air flows compared to design air flows shall be brought to the attention of the engineer prior to any work. 2. At the completion of construction, balancing contractor shall re-check and adjust each air handler or exhaust fan air flows. (supply, return, exhaust) to meet the required air flows. Change out sheaves, increase static pressure set-points, change motors and ramp up fans as required to obtain design air flows. Clean existing coils, change filters as required to obtain design air flows. 3. Adjust existing ductwork dampers serving existing spaces and balance to pre-checked air flows. Air flows serving existing spaces shall be similar after project is complete. 3.2 MEASUREMENTS A. Provide all required instrumentation to obtain proper measurements, calibrated to the tolerances specified in the referenced standards. Instruments shall be properly maintained and protected against damage. 3.3 PERFORMING TESTING, ADJUSTING, AND BALANCING A. Perform testing and balancing procedures on each system identified, in accordance with the detailed procedures outlined in the referenced standards. B. Cut insulation, ductwork, and piping for installation of test probes to the minimum extent necessary to allow adequate performance of procedures. 1. Patch insulation, ductwork, and housings, using materials identical to those removed. 2. Seal ducts and piping after testing. Then test for leaks and repair if found. 3. Seal insulation to re-establish integrity of the vapor barrier. C. Mark equipment settings, including damper control positions; valve indicators, fan speed control levers, and similar controls and devices, to show final settings. Mark with paint or other suitable, permanent identification materials. D. Retest, adjust, and balance systems subsequent to significant system modifications, and resubmit test results. END OF SECTION 23 05 93.00 DUCT INSULATION 23 07 13.00 - 18 SECTION 23 07 13.00 - DUCT INSULATION PART 1 GENERAL 1.1 SUMMARY A. Section includes insulating the following duct services: 1. Indoor, concealed supply and outdoor air. 2. Indoor, exposed supply and outdoor air. 3. Indoor, concealed return located in unconditioned space. 4. Indoor, exposed return located in unconditioned space. 5. Indoor, concealed exhaust between isolation damper and penetration of building exterior. 6. Indoor, exposed exhaust between isolation damper and penetration of building exterior. 1.2 QUALITY ASSURANCE A. testing agency acceptable to authorities having jurisdiction. Factory label insulation and jacket materials and adhesive, mastic, tapes, and cement material containers, with appropriate markings of applicable testing agency. 1. Insulation Installed Indoors: Flame-spread index of 25 or less, and smoke-developed index of 50 or less. 1.3 SCHEDULING A. Schedule insulation application after pressure testing systems and, where required, after installing and testing heat tracing. Insulation application may begin on segments that have satisfactory test results. B. Complete installation and concealment of plastic materials as rapidly as possible in each area of construction. PART 2 PRODUCTS 2.1 INSULATION MATERIALS A. Comply with requirements in "Duct Insulation Schedule, General," "Indoor Duct and Plenum Insulation Schedule," and "Aboveground, Outdoor Duct and Plenum Insulation Schedule" articles for where insulating materials shall be applied. B. Products shall not contain asbestos, lead, mercury, or mercury compounds. C. Provide installed R-8 insulation, or code minimum on duct within building. Installed insulation R-Values shall be per minimum energy code requirements. D. E. F. Foam insulation materials shall not use CFC or HCFC blowing agents in the manufacturing process. G. with vapor barrier. Factory-applied jacket requirements are specified in "Factory-Applied Jackets" Article. 1. Products: Subject to compliance with requirements, provide one of the following: a. CertainTeed Corp.; SoftTouch Duct Wrap . b. Johns Manville; Microlite . c. Knauf Insulation; Friendly Feel Duct Wrap . d. Armstrong World Industries, Inc. e. Owens Corning; SOFTR All-Service Duct Wrap . I. insulation without facing and with vapor barrier with factory-applied ASJ. Factory-applied jacket requirements are specified in "Factory-Applied Jackets" Article. 1. Products: Subject to compliance with requirements, provide one of the following: a. CertainTeed Corp.; Commercial Board . b. . c. Knauf Insulation; Insulation Board . d. Armstrong World Industries, Inc. e. . J. Vapor Barrier Material for Ductwork: Paper-backed aluminum-foil, except as otherwise indicated; strength and permeability rating equivalent to factory-applied vapor barriers on adjoining ductwork insulation, where available; with following additional construction characteristics: 1. High Puncture Resistance: Low vapor transmission (for ducts in exposed areas: Mech. Rooms, etc.) 2. Moderate Puncture Resistance: Medium vapor transmission (for ducts in concealed areas). 2.2 ADHESIVES A. Materials shall be compatible with insulation materials, jackets, and substrates and for bonding insulation to itself and to surfaces to be insulated unless otherwise indicated. B. 1. Products: Subject to compliance with requirements, provide one of the following: a. Childers Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; CP-127.Eagle Bridges - Marathon Industries ; 225. b. Foster Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; 85-60/85-70.Mon-Eco Industries, Inc.; 22-25 . c. Approved equal. 2. 1. Products: Subject to compliance with requirements, provide one of the following: a. Childers Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; CP-82 . b. Eagle Bridges - Marathon Industries; 225. c. Foster Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; 85-50.Mon-Eco Industries, Inc.; 22-25 . 2. 2.3 MASTICS D. 1. F. Vapor-Barrier Mastic: Water based; suitable for indoor use on below ambient services. 1. Products: Subject to compliance with requirements, provide one of the following: a. Foster Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; 30-80/30-90. b. Vimasco Corporation; 749. c. Approved equal. 2. 3. 4. 5. Color: White. 2.4 LAGGING ADHESIVES A. 1. 2. Products: Subject to compliance with requirements, provide one of the following: a. business of H. B. Fuller Company; 30-36 . b. Vimasco Corporation; 713 and 714 . c. Approved equal. 3. Fire-resistant, water-based lagging adhesive and coating for use indoors to adhere fire-resistant lagging cloths over duct insulation. 4. 5. Color: White. 2.5 SEALANTS A. FSK and Metal Jacket Flashing Sealants: 1. Products: Subject to compliance with requirements, provide one of the following: a. Childers Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; CP-76.Eagle Bridges - Marathon Industries; 405 . b. Foster Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; 95-44 . c. Mon-Eco Industries, Inc.; 44-05 . 2. Materials shall be compatible with insulation materials, jackets, and substrates. 3. Fire- and water-resistant, flexible, elastomeric sealant. 4. 5. Color: Aluminum. 6. B. ASJ Flashing Sealants, and Vinyl and PVC Jacket Flashing Sealants: 1. Products: Subject to compliance with requirements, provide one of the following: a. Childers Brand, Specialty Construction Brands, Inc., a business of H. B. Fuller Company; CP-76 . b. Approved equal. 2. Materials shall be compatible with insulation materials, jackets, and substrates. 3. Fire- and water-resistant, flexible, elastomeric sealant. 4. 5. Color: White. 6. 2.6 TAPES A. 1. Products: Subject to compliance with requirements, provide one of the following: a. ABI, Ideal Tape Division b. Avery Dennison Corporation c. Compac Corporation; 104 and 105. d. Venture Tape 2. Width: 3 inches. 3. Thickness: 11.5 mils. 4. Adhesion: 90 ounces force/inch in width. 5. Elongation: 2 percent. 6. Tensile Strength: 40 lbf/inch in width. 7. ASJ Tape Disks and Squares: Precut disks or squares of ASJ tape. B. 1. Products: Subject to compliance with requirements, provide one of the following: a. ABI, Ideal Tape Division b. Avery Dennison Corporation c. Compac Corporation; 110 and 111. d. Venture Tape 2. Width: 3 inches. 3. Thickness: 6.5 mils. 4. Adhesion: 90 ounces force/inch in width. 5. Elongation: 2 percent. 6. Tensile Strength: 40 lbf/inch in width. 7. FSK Tape Disks and Squares: Precut disks or squares of FSK tape. C. Aluminum-Foil Tape: Vapor-retarder tape with acrylic adhesive. 1. Products: Subject to compliance with requirements, provide one of the following: a. ABI b. Avery Dennison Corporation c. Compac Corporation; 120. d. Venture Tape 2. Width: 2 inches. 3. Thickness: 3.7 mils. 4. Adhesion: 100 ounces force/inch in width. 5. Elongation: 5 percent. 6. Tensile Strength: 34 lbf/inch in width. 2.11 SECUREMENTS A. Bands: 1. Products: Subject to compliance with requirements, provide one of the following: a. ITW Insulation Systems; Gerrard Strapping and Seals. b. RPR Products, Inc.; Insul-Mate Strapping, Seals, and Springs. c. Approved equal. 2. B. Insulation Pins and Hangers: 1. Capacitor-Discharge-Weld Pins: Copper- or zinc-coated steel pin, fully annealed for capacitor-discharge welding, 0.135-inch- diameter shank, length to suit depth of insulation indicated. a. Products: Subject to compliance with requirements, provide one of the following: 1) AGM Industries, Inc.; CWP-1. 2) GEMCO; CD. 3) Midwest Fasteners, Inc.; CD. 4) Nelson Stud Welding; TPA, TPC, and TPS. 2. Cupped-Head, Capacitor-Discharge-Weld Pins: Copper- or zinc-coated steel pin, fully annealed for capacitor-discharge welding, 0.135-inch- diameter shank, length to suit depth of insulation indicated with integral 1-1/2-inch galvanized carbon-steel washer. a. Products: Subject to compliance with requirements, provide one of the following: 1) AGM Industries, Inc.; CHP-1. 2) GEMCO; Cupped Head Weld Pin. 3) Midwest Fasteners, Inc.; Cupped Head. 4) Nelson Stud Welding; CHP. 3. Metal, Adhesively Attached, Perforated-Base Insulation Hangers: Baseplate welded to projecting spindle that is capable of holding insulation, of thickness indicated, securely in position indicated when self-locking washer is in place. Comply with the following requirements: a. Products: Subject to compliance with requirements, provide one of the following: 1) AGM Industries, Inc.; Tactoo Perforated Base Insul-Hangers. 2) GEMCO; Perforated Base. 3) Midwest Fasteners, Inc.; Spindle. b. Baseplate: Perforated, galvanized carbon-steel sheet, 0.030 inch thick by 2 inches square. c. Spindle: Stainless steel, fully annealed, 0.106-inch- diameter shank, length to suit depth of insulation indicated. d. Adhesive: Recommended by hanger manufacturer. Product with demonstrated capability to bond insulation hanger securely to substrates indicated without damaging insulation, hangers, and substrates. 4. Nonmetal, Adhesively Attached, Perforated-Base Insulation Hangers: Baseplate fastened to projecting spindle that is capable of holding insulation, of thickness indicated, securely in position indicated when self-locking washer is in place. Comply with the following requirements: a. Products: Subject to compliance with requirements, provide one of the following: 1) GEMCO; Nylon Hangers. 2) Midwest Fasteners, Inc.; Nylon Insulation Hangers. 3) Approved equal. b. Baseplate: Perforated, nylon sheet, 0.030 inch thick by 1-1/2 inches in diameter. c. Spindle: Nylon, 0.106-inch- diameter shank, length to suit depth of insulation indicated, up to 2-1/2 inches. d. Adhesive: Recommended by hanger manufacturer. Product with demonstrated capability to bond insulation hanger securely to substrates indicated without damaging insulation, hangers, and substrates. 5. Insulation-Retaining Washers: Self-locking washers formed from 0.016-inch- thick, stainless-steel sheet, with beveled edge sized as required to hold insulation securely in place but not less than 1-1/2 inches in diameter. a. Products: Subject to compliance with requirements, provide one of the following: 1) AGM Industries, Inc.; RC-150. 2) GEMCO; R-150. 3) Midwest Fasteners, Inc.; WA-150. 4) Nelson Stud Welding; Speed Clips. b. Protect ends with capped self-locking washers incorporating a spring steel insert to ensure permanent retention of cap in exposed locations. 6. Nonmetal Insulation-Retaining Washers: Self-locking washers formed from 0.016-inch- thick nylon sheet, with beveled edge sized as required to hold insulation securely in place but not less than 1-1/2 inches in diameter. a. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1) GEMCO. 2) Midwest Fasteners, Inc. PART 3 EXECUTION 3.1 EXAMINATION A. Examine substrates and conditions for compliance with requirements for installation tolerances and other conditions affecting performance of insulation application. 1. Verify that systems to be insulated have been tested and are free of defects. 2. Verify that surfaces to be insulated are clean and dry. B. Proceed with installation only after unsatisfactory conditions have been corrected. 3.2 PREPARATION A. Surface Preparation: Clean and dry surfaces to receive insulation. Remove materials that will adversely affect insulation application. 3.3 GENERAL INSTALLATION REQUIREMENTS A. Install insulation materials, accessories, and finishes with smooth, straight, and even surfaces; free of voids throughout the length of ducts and fittings. B. Clean and dry ductwork prior to insulating. Butt insulation joints firmly together to ensure complete and tight fit over surfaces to be covered. C. Maintain integrity of vapor-barrier on ductwork insulation, and protect it to prevent puncture and other damage. D. Extend ductwork insulation without interruption through walls, floors and similar ductwork penetrations, except where otherwise indicated E. Lined Ductwork: Except as otherwise indicated, omit insulation on ductwork where internal insulation or sound absorbing linings have been installed. F. Provide insulation on collar and backside of supply diffusers in all ceiling spaces. Provide insulation on plenum box of all supply grilles and registers in all ceiling spaces. G. Install insulation materials, vapor barriers or retarders, jackets, and thicknesses required for each item of duct system as specified in insulation system schedules. H. Install accessories compatible with insulation materials and suitable for the service. Install accessories that do not corrode, soften, or otherwise attack insulation or jacket in either wet or dry state. I. Install insulation with longitudinal seams at top and bottom of horizontal runs. J. Install multiple layers of insulation with longitudinal and end seams staggered. K. Keep insulation materials dry during application and finishing. L. Install insulation with tight longitudinal seams and end joints. Bond seams and joints with adhesive recommended by insulation material manufacturer. M. Install insulation with least number of joints practical. N. Where vapor barrier is indicated, seal joints, seams, and penetrations in insulation at hangers, supports, anchors, and other projections with vapor-barrier mastic. 1. Install insulation continuously through hangers and around anchor attachments. 2. For insulation application where vapor barriers are indicated, extend insulation on anchor legs from point of attachment to supported item to point of attachment to structure. Taper and seal ends at attachment to structure with vapor-barrier mastic. 3. Install insert materials and install insulation to tightly join the insert. Seal insulation to insulation inserts with adhesive or sealing compound recommended by insulation material manufacturer. P. Apply adhesives, mastics, and sealants at manufacturer's recommended coverage rate and wet and dry film thicknesses. Q. Cut insulation in a manner to avoid compressing insulation more than 75 percent of its nominal thickness. R. Finish installation with systems at operating conditions. Repair joint separations and cracking due to thermal movement. S. Repair damaged insulation facings by applying same facing material over damaged areas. Extend patches at least 4 inches beyond damaged areas. Adhere, staple, and seal patches similar to butt joints. 3.4 PENETRATIONS A. Insulation Installation at Roof Penetrations: Install insulation continuously through roof penetrations. 1. Seal penetrations with flashing sealant. 2. For applications requiring only indoor insulation, terminate insulation above roof surface and seal with joint sealant. For applications requiring indoor and outdoor insulation, install insulation for outdoor applications tightly joined to indoor insulation ends. Seal joint with joint sealant. 3. Extend jacket of outdoor insulation outside roof flashing at least 2 inches below top of roof flashing. 4. Seal jacket to roof flashing with flashing sealant. B. Insulation Installation at Fire-Rated Wall and Partition Penetrations: Terminate insulation at fire damper sleeves for fire-rated wall and partition penetrations. Externally insulate damper sleeves to match adjacent insulation and overlap duct insulation at least 2 inches. 1. 3.5 INSTALLATION OF MINERAL-FIBER INSULATION A. Blanket Insulation Installation on Ducts and Plenums: Secure with adhesive and insulation pins. 1. Apply adhesives according to manufacturer's recommended coverage rates per unit area, for 100 percent coverage of duct and plenum surfaces. 2. Apply adhesive to entire circumference of ducts and to all surfaces of fittings and transitions. 3. Install either capacitor-discharge-weld pins and speed washers or cupped-head, capacitor-discharge-weld pins on sides and bottom of horizontal ducts and sides of vertical ducts as follows: a. On duct sides with dimensions 18 inches and smaller, place pins along longitudinal centerline of duct. Space 3 inches maximum from insulation end joints, and 16 inches o.c. b. On duct sides with dimensions larger than 18 inches, place pins 16 inches o.c. each way, and 3 inches maximum from insulation joints. Install additional pins to hold insulation tightly against surface at cross bracing. c. Pins may be omitted from top surface of horizontal, rectangular ducts and plenums. d. Do not overcompress insulation during installation. e. Impale insulation over pins and attach speed washers. f. Cut excess portion of pins extending beyond speed washers or bend parallel with insulation surface. Cover exposed pins and washers with tape matching insulation facing. 4. For ducts and plenums with surface temperatures below ambient, install a continuous unbroken vapor barrier. Create a facing lap for longitudinal seams and end joints with insulation by removing 2 inches from one edge and one end of insulation segment. Secure laps to adjacent insulation section with 1/2-inch outward-clinching staples, 1 inch o.c. Install vapor barrier consisting of factory- or field-applied jacket, adhesive, vapor-barrier mastic, and sealant at joints, seams, and protrusions. a. Repair punctures, tears, and penetrations with tape or mastic to maintain vapor-barrier seal. b. pattern over insulation face, along butt end of insulation, and over the surface. Cover insulation face and surface to be insulated a width equal to two times the insulation thickness, but not less than 3 inches. 5. Overlap unfaced blankets a minimum of 2 inches on longitudinal seams and end joints. At end joints, secure with steel bands spaced a maximum of 18 inches o.c. 6. Install insulation on rectangular duct elbows and transitions with a full insulation section for each surface. Install insulation on round and flat-oval duct elbows with individually mitered gores cut to fit the elbow. 7. Insulate duct stiffeners, hangers, and flanges that protrude beyond insulation surface with 6-inch- wide strips of same material used to insulate duct. Secure on alternating sides of stiffener, hanger, and flange with pins spaced 6 inches o.c. E. Board Insulation Installation on Ducts and Plenums: Secure with adhesive and insulation pins. 1. Apply adhesives according to manufacturer's recommended coverage rates per unit area, for 100 percent coverage of duct and plenum surfaces. 2. Apply adhesive to entire circumference of ducts and to all surfaces of fittings and transitions. 3. Install either capacitor-discharge-weld pins and speed washers or cupped-head, capacitor-discharge-weld pins on sides and bottom of horizontal ducts and sides of vertical ducts as follows: a. On duct sides with dimensions 18 inches and smaller, place pins along longitudinal centerline of duct. Space 3 inches maximum from insulation end joints, and 16 inches o.c. b. On duct sides with dimensions larger than 18 inches, space pins 16 inches o.c. each way, and 3 inches maximum from insulation joints. Install additional pins to hold insulation tightly against surface at cross bracing. c. Pins may be omitted from top surface of horizontal, rectangular ducts and plenums. d. Do not overcompress insulation during installation. e. Cut excess portion of pins extending beyond speed washers or bend parallel with insulation surface. Cover exposed pins and washers with tape matching insulation facing. 4. For ducts and plenums with surface temperatures below ambient, install a continuous unbroken vapor barrier. Create a facing lap for longitudinal seams and end joints with insulation by removing 2 inches from one edge and one end of insulation segment. Secure laps to adjacent insulation section with 1/2-inch outward-clinching staples, 1 inch o.c. Install vapor barrier consisting of factory- or field-applied jacket, adhesive, vapor-barrier mastic, and sealant at joints, seams, and protrusions. a. Repair punctures, tears, and penetrations with tape or mastic to maintain vapor-barrier seal. b. pattern over insulation face, along butt end of insulation, and over the surface. Cover insulation face and surface to be insulated a width equal to two times the insulation thickness, but not less than 3 inches. 5. Install insulation on rectangular duct elbows and transitions with a full insulation section for each surface. Groove and score insulation to fit as closely as possible to outside and inside radius of elbows. Install insulation on round and flat-oval duct elbows with individually mitered gores cut to fit the elbow. 6. Insulate duct stiffeners, hangers, and flanges that protrude beyond insulation surface with 6-inch- wide strips of same material used to insulate duct. Secure on alternating sides of stiffener, hanger, and flange with pins spaced 6 inches o.c. F. 3.7 NOT USED. 3.9 FIELD QUALITY CONTROL A. Perform tests and inspections. B. Tests and Inspections: 1. Inspect ductwork, randomly selected by Architect, by removing field-applied jacket and insulation in layers in reverse order of their installation. Extent of inspection shall be limited to [one location(s) for each duct system defined in the "Duct Insulation Schedule, General" Article. C. All insulation applications will be considered defective Work if sample inspection reveals noncompliance with requirements. 3.11 PROTECTION AND REPLACEMENT A. Repair damaged vapor barrier using vapor barrier tape to fully cover torn area. B. Replace damaged insulation which cannot be repaired satisfactorily, including units with vapor barrier damage and moisture saturated units. C. Protection: Insulation Installer shall advise Contractor of required protection for insulation work during remainder of construction period, to avoid damage and deterioration. 3.12 DUCT INSULATION SCHEDULE, GENERAL A. Plenums and Ducts Requiring Insulation: 1. HVAC Ductwork (OA) between outside air entrance and fan inlet or HVAC unit inlet. 2. HVAC Louvers, Plenums and Ductwork three feet downstream of wall penetrations. 3. HVAC Ductwork (Supply) between fan discharge, or HVAC unit discharge, and room terminal outlet(s). 4. HVAC ductwork (Supply and Return) exposed in ceiling plenums, mechanical rooms, boiler rooms, storage rooms, utility spaces, etc. does require insulation. 5. HVAC Ductwork (Return) from Air Handling Unit to open plenum return system shall be lined. B. Items Not Insulated: 1. Fibrous-glass ducts. 2. 3. Factory-insulated flexible ducts. 4. Factory-insulated plenums and casings. 5. Flexible connectors. 6. Vibration-control devices. 7. Factory-insulated access panels and doors. C. Grilles, Registers, and Diffusers: 1. Provide insulation on collar and backside of supply diffusers in all ceiling spaces. 2. Provide insulation on plenum box of all supply grilles & registers in all ceiling spaces. 3. All Transfer Air ducts shall be provided with acoustic lining unless otherwise noted on drawings. 3.13 INDOOR DUCT AND PLENUM INSULATION SCHEDULE A. 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. B. 1. 1/2" acoustically lined. C. 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. D. Concealed, round and flat-oval, toilet or general building exhaust-air duct insulation shall be the following: 1. None. E. Concealed, rectangular, supply-air duct insulation shall be the following: 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. F. Concealed, rectangular, return-air duct insulation shall be the following: 1. 1/2" acoustically lined. G. Concealed, rectangular, outdoor-air duct insulation shall be the following: 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. H. Concealed, rectangular, toilet or general building exhaust-air duct insulation between isolation damper and penetration of building exterior shall be the following: 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. I. Exposed, round and flat-oval, supply-air duct insulation shall be the following: 1. Double wall insulated. J. Exposed, round and flat-oval, return-air duct insulation shall be the following: 1. 1/2" acoustically lined. K. Exposed, round and flat-oval, outdoor-air duct insulation shall be the following: 1. Mineral-Fiber Blanket: a. 2.2 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.0-lb/cf. ft. nominal density. L. Exposed, round and flat-oval, toilet or general building exhaust-air duct insulation shall be the following: 1. None. M. Exposed, rectangular, supply-air duct insulation shall be the following: 1. Double wall insulated. N. Exposed, rectangular, return-air duct insulation shall be the following: 1. 1/2" acoustically lined. O. Exposed, rectangular, outdoor-air duct insulation shall be the following: 1. Mineral-Fiber Blanket: a. 3 inches thick and 0.75-lb/cu. ft. nominal density. b. 2 inches thick and 1.5-lb/cf. ft. nominal density. P. Exposed, rectangular, toilet or general building exhaust-air duct insulation shall be the following: 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 ISSUED FOR CONSTRUCTION 3393 Peachtree Road NE Atlanta, GA SECTION 23 05 01.00 - COMMON REQUIREMENTS FOR HVAC PART 1 GENERAL 1.1 RELATED DOCUMENTS A. 1.2 SUMMARY A. Scope: 1. The base bid shall include furnishing all materials, labor, tools, equipment and installation of all work required to install complete mechanical systems as outlined in Division 23. 2. Submittal of a bid indicates that the contractor has examined the drawings, specifications, and visited the site and has included all required allowances for a complete bid. 3. Contractor shall be designated as the sub-contractor for that section of work unless specifically stated otherwise. B. Permits, Fees, Inspection, Laws and Regulations 1. Permits and fees of every nature required in connection with this work shall be obtained and paid for by this contractor who shall also pay for all the installation fees and similar charges. 2. Laws and regulations which bear upon or affect the various branches of this work shall be complied with by this contractor, and are hereby made a part of this contract. 3. All work which laws require to be inspected shall be submitted to the proper public officials for inspections and certificates of final approval must be furnished to the Owner before final acceptance will be given by the Engineer. 1.3 ACTION SUBMITTALS A. Coordinate Submittal Data 1. Prior to submitting shop drawings, conduct a coordination meeting between all trades to review the mechanical and electrical coordination schedule on the mechanical and electrical drawings. Verify that the mechanical electrical coordination schedules on separate discipline drawings agree. Coordinate which contractor provides, installs and wires the disconnects, motor starters, controls, etc. between trades. 2. Coordinate the differences in electrical requirements (ex. Voltage, Phase, FLA, MCA and OCP, etc.) between the proposed submitted equipment and mechanical and electrical coordination schedules. Address any required change due to conflicts at no additional cost. 3. Provide copy of mechanical electrical coordination schedule and highlight differences in the submittals compared to these schedules and explain differences and note the changes that have occurred between trades and address these changes at no additional cost. B. Product Data: For each type of product. 1. Clearly state equipment markings (ex. ACU-1), capacities, voltages and model numbers on all submittals. Clearly state this information on the cover sheet in tabular form. 2. Include construction details, material descriptions, dimensions of individual components and profiles, and finishes. 3. Include dimensions, weights, ratings, performance with operating points clearly listed, gauges of metal, rated capacities, operating characteristics, electrical characteristics, and furnished specialties and accessories. C. Shop Drawings: 1. Include plans, elevations, sections, and mounting details. 2. Include details of equipment assemblies. Indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection. 3. Detail fabrication and assembly. 4. Include diagrams for power, signal, and control wiring. D. Maintenance Data 1. Submit maintenance instructions, including all factory published maintenance information and include this information in maintenance manuals E. Record Drawings 1. Provide one set of As-Built Drawings and one copy of complete Electronic As-Built Drawing files to the owner at the date of substantial completion. 2. Prepare record drawings in accordance with the requirements in Division 1. In addition to the requirements specified in Division 1, indicate the following installed conditions: a. Ductwork mains and branches, size and location, locations of dampers and other control devices; filters, boxes, and terminal units. b. Mains and branches of piping systems, with valves and control devices located and numbered, concealed unions, traps, strainers, expansion compensators, tanks, etc. located). Indicate actual inverts and horizontal locations of underground piping. c. Equipment locations (exposed and concealed), dimensioned from prominent building lines. 1.4 INFORMATIONAL SUBMITTALS A. Coordination Drawings: Drawings and other details, drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of the items involved. B. Qualification Data: For manufacturer. C. Seismic Qualification Certificates: For equipment, accessories, and components, from manufacturer. 1. Basis for Certification: Indicate whether withstand certification is based on actual test of assembled components or on calculation. 2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate and describe mounting and anchorage provisions. 3. Detailed description of equipment anchorage devices on which the certification is based and their installation requirements. D. Welding certificates. E. Field quality-control reports. 1.5 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For equipment and systems to include in operation and maintenance manuals. 1.6 QUALITY ASSURANCE A. General Standards 1. The installation of all work shall conform to the applicable State and Local codes and statures. The applicable provisions of the following standards shall govern: a. California Building Code b. American Society of Test Materials (ASTM) c. National Fire Protection Association (NFPA) d. Underwriters Laboratories (UL) e. National Sanitation Foundation (NSF) f. Sheet Metal & Air Conditioning Contractors National Association (SMACNA) g. American National Standards Institute (ANSI) h. Building Code Seismic Relative Displacement Requirements B. Supervision and Workmanship 1. Workmanship throughout shall conform to the standards of best practice and all labor employed must be competent to do all the work required. 2. Contractor shall furnish the services of an experienced superintendent to be in constant charge of the work at all times. 3. Quality Assurances: Contractor if requested shall demonstrate his ability to perform all work to be included under the contract. Assurance if requested, shall be in the form of a list of past projects of similar size and complexity and a list of six (6) references pertaining to those projects. Failure to demonstrate these quality assurances shall be taken as a statement of the contractor's inability to perform. 4. Contractor shall have a minimum five (5) years experience in the installation of HVAC systems similar to the systems specified. 5. Welders shall show proof satisfactory to the Engineer that they have passed qualifications prescribed by are certified by the National Certified Pipe Welding Bureau or by other reputable and recognized agency, acceptable to the Engineer, using welding procedures set forth in the ASME Boiler Construction Code, Section IX, Welding Qualifications. No welder shall be employed who does not meet the above requirements. 6. Core Drilling: Contractors shall use core drills rather than percussion type equipment for making holes in concrete. All percussion type drilling including hammer drills must be scheduled through owner's representative. 7. Inspection: Provisions shall be made for owner's representative to make rough-in and open ceiling inspections prior to covering up work. C. Specifications 1. Specifications shall be interpreted in connection with the drawings hereinbefore described, and if anything is shown on drawings and not mentioned in the specifications, or vice versa, it is to be included in the work the same as though clearly set forth by both. 2. Furthermore, all materials or labor previously required to fully complete the work shall be included in the contractor's work even though each item necessarily involved be not specifically mentioned or shown. Such work and/or materials shall be of the same grade or quality as the parts actually specified and shown. Should there be a conflict between the plans and specifications, the greater quantity or better quality shall be furnished. D. LEED Requirements 1. The following requirements are required to achieve LEED Certification under LEED Green Building Design and Construction rating system, 2009 Edition. The following requirements shall supersede any requirements indicated in any other specification sections of division 23 specifications or indicated on the drawings. 2. Adhesives, sealants, and sealant primers used on the interior of the building shall comply with the voc limits of the south coast rule #1168 by the South Coast Air Quality Management District, dated July 1, 2005. 3. Voc limits in grams per liter for adhesives and sealants used on intrior of building are as follows: Product Type VOC limit g/l (less water) a. PVC welding 510 b. CPVC welding 490 c. ABS welding 325 d. Plastic cement welding 250 e. Adhesive primer for plastic 550 f. Contact adhesive 80 g. Special purpose contact adhesives 250 h. Sheet applied rubber lining operations 850 4. Aerosol adhesives shall comply with the green seal standard for commercial adhesives GS-36, as noted below. a. General purpose mist spray 65% vocs by weight b. General purpose web spray 55% vocs by weight c. Special purpose aerosol adhesives (all types) 70% vocs by weight 5. Paints applied on the interior of the building shall comply with green seal product specific environmental requirements. 6. Architectural paints coating and primers applied to interior walls as well as anti-corrosive paints applied to interior ferrous metal shall not exceed the voc limits as put forth green seal standard GS-11. 7. The green seal standard is intended for paints and anti-corrosive paints. Both interior and exterior paints are addressed by the standard, but only limits for interior paints apply to a this project. Limits on vocs in grams per liter for paints and anti-corrosive paints are as follows: Anti-corrosive voc limit (g/l) a. Gloss 250 b. Semi-gloss 250 c. Flat 250 8. Zero use of chlorofluorocarbon (CFC)-based refrigerants in fire protection equipments. 9. During construction, contractor shall meet the recommended control measures of the Sheet Metal and Air Conditioning National Contractors Association (SMACNA) IAQ Guidelines For Occupied Buildings Under Construction, 2nd Edition 2007, ANSI/ SMACNA 008-2008 (Chapter 3). 10. Protect stored on-site and installed absorptive materials from moisture damage. 11. The contractor should protect all HVAC equipment from both dust and odors and seal all duct and equipment openings with plastic. If the system must be operated to maintain service to other occupied portions of the building or to protect finished work, the contractor shall protect the return side of the system. If the returns cannot be closed, the contractor shall install and maintain temporary filters over grilles and openings. The filtration medium must have a rating of MERV 8 or better. Contractor shall replace all filtration media immediately prior to occupancy. F. Plans 1. Plans are diagrammatic indicating required size, points of termination of ducts and pipes and suggested routes. However, it is not intended that drawings indicate all necessary offsets. It shall be the work of the contractor to install piping and ductwork in such manner as to conform to the structure, avoid obstructions and preserve headroom. 2. Coordination Drawings: The contractor shall provide a 1/4" scale double line set of coordination drawings to the Engineer prior to installation of the systems. This contractor shall provide all necessary coordination drawings required to make sure all disciplines are coordinated and fit into specified mechanical spaces (i.e. ceilings, chases, and all others). The top elevation of all disciplines shall be clearly marked throughout the drawings so that no interferences occur. Drawings shall depict actual clearances of installed equipment, penetration locations and service clearances. Indicate scheduling, sequencing, movement and positioning of large equipment during construction. Indicate where space is limited for installation and access and where sequencing and coordination of installations are of importance to the efficient flow of the work. Conflicts in equipment and materials shall be corrected prior to installation. Contractor shall provide drawings showing all disciplines for coordination. 3. Exact location of electric outlets, heating equipment, piping, lighting fixtures, ducts, etc., shall be coordinated so there will be no interferences at installation between the various trades. It is the work of the contractor to prepare complete coordination drawings indicating exact location of all items. The engineer shall have the option to move any piece of mechanical equipment up to fifteen feet from location shown on contract documents without any additional cost. 4. All ducts and piping shall be run as straight as possible and symmetrical with architectural items. 5. Piping and ducts shall be concealed in pipe shafts, pipe spaces, and furring wherever possible. 6. Piping and ductwork fabricated before coordination with the other trades will be done at the contractor's risk. G. Qualifications 1. Installer Qualifications: An authorized representative who is trained and approved by manufacturer. 2. 3. Pipe and Pressure-Vessel Welding Qualifications: Qualify procedures and operators according to ASME Boiler and Pressure Vessel Code. 1.7 DELIVERY, STORAGE, AND HANDLING A. Deliver equipment and materials according to factory shipping requirements. Pack components in factory-fabricated protective containers. Units shall be delivered in sections of such size as will pass through available openings. B. Store equipment and materials in clean dry place and protect from weather and construction traffic. When stored inside, do not exceed structural capacity of the floor. C. Handling and rigging of equipment and products shall be as recommended by the manufacturer. Components and equipment damaged during shipment or handling shall not be installed. Replace and return damaged components to the manufacturer. D. All equipment and materials shall have the ability to be returned to the manufacturer after purchase and charged a reasonable restocking fee by the manufacturer equal to a small portion of the cost. 1.8 WARRANTY A. The contractor shall provide a guarantee in written form stating that all work under this section shall be free of defective work, materials, or parts for a period of one year from the date of substantial completion owner's final acceptance and shall repair, revise or replace at no cost to the owner any such defects occurring within the guarantee period. Contractor shall also state in written form that any items or occurrences arising during the guarantee period will be attended to in a timely manner and will in no case exceed four (4) working days from date of notification by owner. PART 2 PRODUCTS 2.1 Materials and Equipment A. Materials installed shall be new, full weight, of the best quality. All similar materials shall be of the same type and manufacturer. B. Contractor is responsible for the safety and good condition of the materials and equipment installed until final acceptance by the Owner. Materials shall be stored to prevent damage or weathering prior to installation. C. When several materials, products or items of equipment are specified by name for one use, the contractor may select any one of those specified and shall include with his bid an Equipment List listing the equipment selected. D. Any manufacturer(s) other than scheduled shall have unit dimensions, weights and clearances equal to or less than any specified base-bid equipment, unless approved by the Engineer. E. The responsibility for costs incurred from deviation from the base scheduled and specified equipment shall be this contractor. Use of any equipment will be considered as a statement that capacities, requirements, clearances and arrangements have been checked and found satisfactory and meet the intent of the scheduled and specified equipment. PART 3 EXECUTION 3.1 EXAMINATION A. Examine areas and conditions, with Installer present, for compliance with requirements for installation tolerances and other conditions affecting performance of the Work. B. Examine products or materials before installation. Reject products or materials that are wet, moisture damaged, or mold damaged. C. Examine roughing-in for piping to verify actual locations of piping connections before equipment installation. D. Examine walls, floors, roofs, etc. for suitable conditions where product or system will be installed. E. Prepare written report, endorsed by Installer, listing conditions detrimental to performance. F. Proceed with installation only after unsatisfactory conditions have been corrected. 3.2 SELECTIVE DEMOLITION A. General: Demolish, remove, demount, and disconnect abandoned mechanical materials and equipment indicated to be removed and not indicated to be salvaged or saved. B. Materials and Equipment To Be Salvaged: Remove, demount, and disconnect existing mechanical materials and equipment, inactive and obsolete piping, fittings and specialties, equipment, ductwork, controls, fixtures, and insulation indicated to be removed and salvaged. Consult with owner as to whether the salvaged material is to be discarded or stored, and deliver materials and equipment to the location designated for storage or dispose in proper manner. C. Disposal and Cleanup: Remove from the site and legally dispose of demolished materials and equipment not indicated to be salvaged. D. Mechanical Materials and Equipment: Demolish, remove, dismount, and disconnect the following items: 1. Inactive and obsolete piping, fittings and specialties, equipment, ductwork, controls, fixtures, and insulation. 2. Piping and ducts embedded in floors, walls, and ceilings may remain if such materials do not interfere with new installations. 3. Remove all abandoned and unused piping, ductwork and materials above ceilings and concealed behind walls. E. Perform refrigerant evacuations and reclaim required for demolished or relocated equipment. 3.3 WORK IN EXISTING SPACES A. General: Care shall be taken when working in existing spaces so as not to damage existing walls and ceilings where work is being performed. B. Existing Ceilings: Where work is being performed above ceilings, and the architectural drawings do not indicate ceiling modifications by the general contractor, it shall be the responsibility of this contractor to remove and replace existing ceilings where work is being performed. In those instances, all repair and installation of new grid, ceiling panels, etc shall be the responsibility of this contractor. Match existing finishes. C. Walls & Floors: It shall be the responsibility of this contractor to patch existing walls and floors and match existing finishes where work is being removed or installed, unless noted otherwise on the architectural drawings. D. HVAC Units: Replace all air filters in all HVAC equipment serving renovated space prior to turning space over to owner. Clean coils, replace belts, adjust or replace pulleys, adjust static pressure setpoints and drives, as required to obtain design air flows. Flush strainers, replace baskets, flush coils, change pump impellers, adjust balancing valves as required to obtain design water flows. 3.4 TEMPORARY SERVICE: Refer to Section GENERAL REQUIREMENTS A. Temporary Heating or Cooling: Provide, maintain and pay for all charges for temporary heating or cooling and adequate ventilation in all construction areas of the project, as may be deemed necessary to protect the building and work installed therein from damage due to cold, dampness, or humidity and shall maintain heating or cooling during finishing operations and until date of final completion. Use of permanent and existing building heating/cooling systems will not be permitted without prior written permission from the owner, architect, and engineer. 3.5 HANGERS AND SUPPORTS AND FOUNDATION A. All hangers and supports shall comply with Building Code Seismic Relative Displacement Requirements. B. Support all piping, ductwork and equipment by hangers or brackets. Furnish structural steel members, (prime painted with zinc chromate) where required to support piping and equipment. No portion of piping or valves shall be supported by equipment. Double nut all threaded rods. C. Ductwork - Support by means of hangers as follows: 1. 2. D. A pair of hangers shall be located at every traverse joint and elsewhere according to the table. Where ductwork is hung via rods, rods shall be double nutted. E. Suspend hangers from joist or I beam by means of C clamps and lock nut and retaining clip, Anvil International Fig. 86, Elcen, or approved equal. Suspend hander rods from structural concrete slab by means of universal insert. 3.6 FIRE ALARM RELATED WORK FOR MECHANICAL SYSTEMS A. The following applies whether or not shown on drawings. Prior to submitting a bid, each contractor shall review documents of all other branches which may have an impact on such work. B. It shall be the responsibility of the contractor who installs the alarm panel and/or wiring to provide all necessary working drawings and submittals (wiring diagrams, zone schedule, plan view layouts, routing, wiring, device & panel submittals, etc.). These submittals shall be approved by the State Fire Marshall's office (or a similar agency as locally required) prior to submittal to engineer. All components shall be UL listed and NFPA approved for their specific application. Where control panels are required, provide remote annunciator (at location as directed in field) and provide full battery back-up as required by NFPA. C. All smoke detectors shall be specifically UL listed for use with the existing or new building fire alarm panel(s) and shall be provided with all required power supply/alarm wiring, sampling tubes, test station, auxiliary contacts, etc. D. All work shall be in strict compliance with all applicable sections of the latest edition of NFPA. Each air handling unit, sprinkler flow switch and/or sprinkler tamper switch shall be separately zoned. All fire alarm system wiring shall be supervised and installed in conduit (3/4" minimum). E. Unless local prevailing codes require otherwise, fire alarm related work for mechanical systems shall be as follows: 1. For air handling units and common air systems with capacity of 2,000 cfm or above, Electrical contractor shall furnish, HVAC Contractor shall mount & Electrical contractor shall wire a UL listed photoelectric smoke detector (with all required sampling tubes, test stations, auxiliary contacts, etc.) Smoke detector shall be located in the main return duct (prior to outside air connection) or supply duct, consult local authority for exact location prior to installation, and as required by manufacturer. Electrical contractor will make alarm system connections. Temperature Controls Contractor shall make fan shut down control wiring connections thru auxiliary NC contacts in detector sub base. Consult local authorities in jurisdiction for exact location. 2. For air handling units and air systems with capacity of 15,000 cfm or above and serve two or more stories, smoke detectors shall be installed at each story. Such smoke detectors shall be located upstream of the connection between the return air riser and any air ducts or plenums. The electrical contractor shall furnish to the HVAC Contractor the required quantity of UL listed photoelectric smoke detectors. The HVAC Contractor shall install the housing and sampling tube in each duct system. The Electrical Contractor will install smoke detectors and make alarm system connections. Temperature Controls Contractor shall make fan shut down control wiring connections thru auxiliary NC contacts in detector sub base. Consult local authorities in jurisdiction for exact location. 3. If a sprinkler system exists in the building, the sprinkler contractor shall furnish and install all required flow and tamper switches. The Electrical Contractor shall furnish, install and wire all required fire alarm system wiring as well as all required additional components within the fire alarm system control and annunciator panels to allow for the additional zoning. 4. Electrical contractor shall coordinate with mechanical contractors and shall install the detectors in easily accessible locations. Electrical Contractor shall provide all necessary fire alarm system wiring (in conduit) and supplementary work, components, equipment, etc. as required to interface the sprinkler and/or smoke detector work with the building fire alarm system(s). 5. HVAC Contractor shall make wiring connection from the auxiliary contacts of the relay module or detectors into fan control circuits to stop fans and compressors in event of presence of smoke. If alarm status for the smoke detector is indicated in specification section 23 09 93.00, then the HVAC/ Temperature Controls Contractor is responsible for providing a control relay and all wiring from the smoke detector to allow notification at the BAS. If a supply & return/exhaust fan arrangement is installed, the HVAC/ Temperature Controls Contractor shall provide a 3-Pole Double Throw relay to shut down both the supply and return/exhaust fans in event of presence of smoke. 3.7 ARCHITECTURAL COORDINATION ITEMS A. Cutting and Patching: 1. Cut and drill all openings in walls and floors required for the installation. Secure approval of Engineer before cutting and drilling. Neatly patch all openings cut. 2. Cutting and patching to be held to a minimum by arranging with other contractors for all sleeves and openings before construction is started. B. Fire Caulking: 1. Patching through fire rated walls and enclosures shall not diminish the rating of that wall or enclosure. Patch shall be equal to rockwool, firestop, caulk or approved "rated" patch. 2. Provide products equivalent to the following: a. For Floor Openings: Instant Firestop; 305-SL b. For Wall Openings: Instant Firestop; 344-GG c. Mineral Felt: Instant Firestop; Type MW d. For Insulated Pipes: Instant Firestop; Type PI e. For Fill Areas: Instant Firestop; C-1000 3. For larger openings where pipes penetrate fire rated enclosures that cannot be sealed with products described above, utilize approved UL products equal to 3M FireDam Spray 200. Install per manufacturer's instructions. C. Access Panels: 1. Furnish all access panels required for proper servicing of equipment. Provide access panels for all concealed valves, vents, controls, cleanout doors, and sprinkler devices required by NFPA. Provide access panels for all fire and/or fire & smoke dampers. Provide frame as required for finish. Furnish panels to General Contractor. Exact locations to be approved by the Architect. Minimum size to be 12" x 12", units to be 16 gauge steel, locking device shall be screwdriver cam locks. D. Sleeves: 1. Install standard Schedule 40 black steel pipe sleeves two sizes larger than pipes passing through floors, walls or masonry construction. 2. Sleeves through walls to be cut flush with both faces. 3. Sleeves through floor to extend one inch above floor top elevation. 4. Pipes penetrating roof shall use a pipe curb assembly equal to Pate Co. Curb type and flashing per roofing manufacturer's requirements. 5. Caulk between sleeves and pipes with rockwool and caulk around sleeves with sealing compound. Material must meet all applicable fire ratings required. E. Escutcheon plates: 1. Install manufactured chromium plated escutcheon plates wherever uninsulated exposed pipes pass through walls, floors, or ceilings. Escutcheon inside diameter to closely fit around pipe and outside diameter to completely cover opening. F. Piping Penetrations: 1. Furnish and set all forms required in masonry walls or foundation to accommodate pipes. 2. Provide flexible connectors where all pipes or ducts cross building expansion joints equal to Flexonics. Coordinate exact quantity & location with Architectural plans prior to installation of piping or ductwork. 3.8 PAINTING, MARKING AND NAMEPLATE DATA A. Nameplate: For each piece of power operated mechanical equipment provide a permanent operational data nameplate indicating manufacturer, product name, model number, serial number, capacity, operating and power characteristics, labels of tested compliances, and similar essential data. Locate nameplates in an accessible location. B. All exposed piping, ductwork and equipment shall be identified by stenciling or as listed in the identification section by this contractor. C. Equipment shall be labeled with tag numbers same as used on drawings or indicated in specifications. D. Letters shall be 1" tall for piping and 4" tall for ductwork and equipment. The air conditioning system numbers and zone numbers shall be added after each designation of the air conditioning supply ductwork. E. Provide numbered brass tags not less than 1-1/2" diameter on all shutoff valves. Furnish the Owner with typewritten sheets in duplicate showing the valve numbers, valve location, and what it controls. Typewritten sheets shall be furnished framed under glass. 3.9 CLEANING EQUIPMENT AND PREMISES A. Clean all parts of the apparatus and equipment. Exposed parts which are to be painted shall be cleaned of cement, plaster and other materials and all oil and grease spots shall be removed. Such surfaces shall be carefully wiped and all corners and cracks scraped out. B. Exposed metal work shall be brushed down with steel brushes to remove rust and other spots and left smooth and clean. Remove trapped elements during cleaning and flushing period, after which they shall be replaced and adjusted. C. During the progress of the work, the contractor shall clean up after his men and leave the premises and all portions of the building in which he is working in a clean and safe condition. 3.10 FIELD QUALITY CONTROL A. Prepare test and inspection reports. 3.11 STARTUP SERVICE A. Engage a factory-authorized service representative to perform startup service. 1. Complete installation and startup checks according to manufacturer's written instructions. 2. Unit may be started up and utilized only after the floor has been prepared and after drywall sanding has occurred 100%. Coordinate with all trades prior to startup. 3.12 ADJUSTING A. Adjust hardware and moving parts to function smoothly, and lubricate as recommended by manufacturer. 3.13 PROTECTION A. Remove and replace products or materials that are wet, moisture damaged, or mold damaged. 3.14 DEMONSTRATION A. Engage a factory-authorized service representative to train Owner's maintenance personnel to adjust, operate, and maintain units. END OF SECTION 23 05 01.00 nike retail interiors SECTION 23 01 70.00 - OPERATION AND MAINTENANCE OF HVAC SYSTEMS PART 1 GENERAL 1.1 SUMMARY A. Section includes: 1. Operation and Maintenance Manuals. 2. Instructions for Owner's Personnel. 1.2 ACTION SUBMITTALS A. Product Data: For each type of product. 1. Include construction details, material descriptions, dimensions of individual components and profiles, and finishes. 2. Include rated capacities, operating characteristics, electrical characteristics, and furnished specialties and accessories. B. Shop Drawings: 1. Include plans, elevations, sections, and mounting details. 2. Include details of equipment assemblies. Indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection. 3. Detail fabrication and assembly. 4. Include diagrams for power, signal, and control wiring. 1.3 INFORMATIONAL SUBMITTALS A. Coordination Drawings: Drawings drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of the items involved. B. Qualification Data: For manufacturer. C. Seismic Qualification Certificates: For equipment, accessories, and components, from manufacturer. 1. Basis for Certification: Indicate whether withstand certification is based on actual test of assembled components or on calculation. 2. Dimensioned Outline Drawings of Equipment Unit: Identify center of gravity and locate and describe mounting and anchorage provisions. 3. Detailed description of equipment anchorage devices on which the certification is based and their installation requirements. D. Welding certificates. E. Field quality-control reports. 1.4 CLOSEOUT SUBMITTALS A. Operation and Maintenance Data: For equipment and systems to include in operation and maintenance manuals. 1.5 QUALITY ASSURANCE A. Installer Qualifications: An authorized representative who is trained and approved by manufacturer. B. C. Pipe and Pressure-Vessel Welding Qualifications: Qualify procedures and operators according to ASME Boiler and Pressure Vessel Code. 1.6 WARRANTY A. Manufacturer's Warranty: Manufacturer agrees to repair or replace components that fail(s) in materials or workmanship within specified warranty period. 1. Warranty Period: one year from date of Substantial Completion. PART 2 PRODUCTS 2.1 OPERATING AND MAINTENANCE MANUALS A. The contents of operating and maintenance manuals shall include the following: 1. Description of mechanical equipment and systems. 2. Operating instructions. 3. Routine maintenance schedules and procedures. B. Organization - A manual of such purpose shall be arranged in two parts, with Part I dealing with information pertaining to systems and Part II covering information pertaining to equipment. These may be bound in as many volumes as may be required for convenience of use and reference. PART 3 EXECUTION 3.1 Instructions for the owner's personnel A. Arrange for suppliers and/or installers to meet with the Owner's operating and maintenance personnel to provide instruction in the proper operation and maintenance of equipment that requires routine servicing. Include the following: 1. Review of operation and maintenance manuals. 2. Required tools. 3. Lubricants. 4. Spare parts. 5. Cleaning. 6. Hazards. 7. Warranties and maintenance agreements. B. Demonstrate equipment and systems operation including the following: 1. Start-up. 2. Shut-down. 3. Emergency conditions. 4. Safety procedures. 5. Setpoint and schedule adjustments. 6. Economy and efficiency adjustments. END OF SECTION 23 01 70.00 Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 PERMIT SET HVAC SPECIFICATIONS Project # 13272 M4.00 Date: 02.22.2013 B. Welding Qualifications: Qualify procedures and personnel according to the following: 7. C. D. PART 2 PRODUCTS 2.1 SINGLE-WALL RECTANGULAR DUCTS AND FITTINGS A. General Fabrication Requirements: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" based on indicated static-pressure class unless otherwise indicated. B. Joints," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." C. Duct/Longitudinal Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." D. Elbows, Transitions, Offsets, Branch Connections, and Other Duct Construction: Select types and fabricate according to SMACNA's "HVAC Duct Construction Standards - Metal in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2.2 A. indicated static-pressure class unless otherwise indicated. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. McGill AirFlow LLC. b. Sheet Metal Connectors, Inc . c. Dixie Sheetmetal d. Eastern Sheetmetal of Cincinnati e. J and I Services f. Lindab g. Semco Mfg., Inc. h. Regional Sheetmetal Manufacturing i. Tangent Air j. Hranec k. S.H.A.P.E. Manufacturing, Inc. B. for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 1. Transverse Joints in Ducts Larger Than 60 Inches in Diameter: Flanged. D. Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 1. Fabricate round ducts larger than 90 inches in diameter with butt-welded longitudinal seams. 2. Fabricate flat-oval ducts larger than 72 inches in width (major dimension) with butt-welded longitudinal seams. E. 2.3 A. Figure 3-6, "Conical Tees," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." DOUBLE-WALL ROUND DUCTS AND FITTINGS otherwise indicated. 1. Joints," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2. Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 3. and Figure 3-6, "Conical Tees," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." B. Inner Duct: Minimum 0.028-inch perforated galvanized sheet steel having 3/32-inch- diameter perforations, with overall open area of 23 percent. C. 1. Install spacers that position the inner duct at uniform distance from outer duct without compressing insulation. 2. Coat insulation with antimicrobial coating. 3. 2.4 DOUBLE-WALL RECTANGULAR DUCTS AND FITTINGS A. Rectangular Ducts: Fabricate ducts with indicated dimensions for the inner duct. B. Outer Duct: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" based on indicated static-pressure class unless otherwise indicated. C. Joints," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." D. Duct/Longitudinal Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." E. 1. Install spacers that position the inner duct at uniform distance from outer duct without compressing insulation. 2. Coat insulation with antimicrobial coating. 3. F. G. Inner Duct: Minimum 0.028-inch perforated galvanized sheet steel having 3/32-inch- diameter perforations, with overall open area of 23 percent. H. "Rectangular Duct/Traverse Joints," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." I. Duct/Longitudinal Seams," for static-pressure class, applicable sealing requirements, materials involved, duct-support intervals, and other provisions in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible."] 2.5 SHEET METAL MATERIALS A. General Material Requirements: Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for acceptable materials, material thicknesses, and duct construction methods unless otherwise indicated. Sheet metal materials shall be free of pitting, seam marks, roller marks, stains, discolorations, and other imperfections. B. 1. Galvanized Coating Designation: G90. 2. Finishes for Surfaces Exposed to View: Mill phosphatized. C. 1. Where black- and galvanized-steel shapes and plates are used to reinforce aluminum ducts, isolate the different metals with butyl rubber, neoprene, or EPDM gasket materials. D. Tie Rods: Galvanized steel, 1/4-inch minimum diameter for lengths 36 inches or less; 3/8-inch minimum diameter for lengths longer than 36 inches. 2.6 DUCT LINER A. noted. 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following : a. CertainTeed Corporation; Insulation Group . b. Johns Manville. c. Knauf Insulation. d. Maximum Thermal Conductivity: 1) 2) 2. a. 3. B. Insulation Pins and Washers: 1. Cupped-Head, Capacitor-Discharge-Weld Pins: Copper- or zinc-coated steel pin, fully annealed for capacitor-discharge welding, [0.106-inch-] [0.135-inch-] diameter shank, length to suit depth of insulation indicated with integral 1-1/2-inch galvanized carbon-steel washer. 2. Insulation-Retaining Washers: Self-locking washers formed from 0.016-inch- thick galvanized steel; with beveled edge sized as required to hold insulation securely in place but not less than 1-1/2 inches in diameter. D. 1. Adhere a single layer of indicated thickness of duct liner with at least 90 percent adhesive coverage at liner contact surface area. Attaining indicated thickness with multiple layers of duct liner is prohibited. 2. Apply adhesive to transverse edges of liner facing upstream that do not receive metal nosing. 3. Butt transverse joints without gaps, and coat joint with adhesive. 4. Fold and compress liner in corners of rectangular ducts or cut and fit to ensure butted-edge overlapping. 5. Do not apply liner in rectangular ducts with longitudinal joints, except at corners of ducts, unless duct size and dimensions of standard liner make longitudinal joints necessary. 6. Secure liner with mechanical fasteners 4 inches from corners and at intervals not exceeding 12 inches transversely; at 3 inches from transverse joints and at intervals not exceeding 18 inches longitudinally. 7. Secure transversely oriented liner edges facing the airstream with metal nosings that have either channel or "Z" profiles or are integrally formed from duct wall. Fabricate edge facings at the following locations: a. Fan discharges. b. Intervals of lined duct preceding unlined duct. c. Upstream edges of transverse joints in ducts where air velocities are higher than 2500 fpm or where indicated. 8. Terminate inner ducts with buildouts attached to fire-damper sleeves, dampers, turning vane assemblies, or other devices. Fabricated buildouts (metal hat sections) or other buildout means are optional; when used, secure buildouts to duct walls with bolts, screws, rivets, or welds. 2.7 SEALANT AND GASKETS A. General Sealant and Gasket Requirements: Surface-burning characteristics for sealants and gaskets shall be a maximum flame-spread index of 25 and a maximum smoke-developed B. Water-Based Joint and Seam Sealant: 1. Application Method: Brush on. 2. Solids Content: Minimum 65 percent. 3. 4. Water resistant. 5. Mold and mildew resistant. 6. 7. Maximum Static-Pressure Class: 10-inch wg, positive and negative. 8. Service: Indoor or outdoor. 9. Substrate: Compatible with galvanized sheet steel (both PVC coated and bare), stainless steel, or aluminum sheets. 10. 11. 12. Maximum Static-Pressure Class: 10-inch wg, positive or negative. 13. Service: Indoor or outdoor. 14. Substrate: Compatible with galvanized sheet steel (both PVC coated and bare), stainless steel, or aluminum sheets. D. 1. General: Single-component, acid-curing, silicone, elastomeric. 2. Type: S. 3. Grade: NS. 4. Class: 25. 5. Use: O. 6. 7. Flange Gaskets: Butyl rubber, neoprene, or EPDM polymer with polyisobutylene plasticizer. E. Round Duct Joint O-Ring Seals: PART 3 EXECUTION 3.1 DUCT INSTALLATION A. Drawing plans, schematics, and diagrams indicate general location and arrangement of duct system. Indicated duct locations, configurations, and arrangements were used to size ducts and calculate friction loss for air-handling equipment sizing and for other design considerations. Install duct systems as indicated unless deviations to layout are approved on Shop Drawings and Coordination Drawings. B. For all exposed ducts downstream of VAV boxes provide 10 feet of duct liner. For round duct provide internal screen to hold liner. All balancing dampers for exposed ductwork shall be fully body, locking quadrant dampers. C. Install ducts according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" unless otherwise indicated. D. Install round ducts in maximum practical lengths. E. Install ducts with fewest possible joints. F. Install factory- or shop-fabricated fittings for changes in direction, size, and shape and for branch connections. G. Unless otherwise indicated, install ducts vertically and horizontally, and parallel and perpendicular to building lines. H. Install ducts close to walls, overhead construction, columns, and other structural and permanent enclosure elements of building. I. Install ducts with a clearance of 1 inch, plus allowance for insulation thickness. J. Route ducts to avoid passing through transformer vaults and electrical equipment rooms and enclosures. K. Where ducts pass through non-fire-rated interior partitions and exterior walls and are exposed to view, cover the opening between the partition and duct or duct insulation with sheet metal flanges of same metal thickness as the duct. Overlap openings on four sides by at least 1-1/2 inches. L. smoke dampers. M. Construction," Appendix G, "Duct Cleanliness for New Construction Guidelines." 3.2 INSTALLATION OF EXPOSED DUCTWORK A. Protect ducts exposed in finished spaces from being dented, scratched, or damaged. B. Trim duct sealants flush with metal. Create a smooth and uniform exposed bead. Do not use two-part tape sealing system. C. welds, and treat the welds to remove discoloration caused by welding. D. Maintain consistency, symmetry, and uniformity in the arrangement and fabrication of fittings, hangers and supports, duct accessories, and air outlets. E. Repair or replace damaged sections and finished work that does not comply with these requirements. 3.3 DUCT SEALING A. Seal ducts to the following seal classes according to SMACNA's "HVAC Duct Construction Standards - Metal and Flexible": 1. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible." 2. 3. 4. 5. 6. 7. 8. 9. 3.4 HANGER AND SUPPORT INSTALLATION A. B. Building Attachments: Concrete inserts, powder-actuated fasteners, or structural-steel fasteners appropriate for construction materials to which hangers are being attached. 1. Where practical, install concrete inserts before placing concrete. 2. Install powder-actuated concrete fasteners after concrete is placed and completely cured. 3. Use powder-actuated concrete fasteners for standard-weight aggregate concretes or for slabs more than 4 inches thick. 4. Do not use powder-actuated concrete fasteners for lightweight-aggregate concretes or for slabs less than 4 inches thick. 5. Do not use powder-actuated concrete fasteners for seismic restraints. C. "Minimum Hanger Sizes for Round Duct," for maximum hanger spacing; install hangers and supports within 24 inches of each elbow and within 48 inches of each branch intersection. D. Hangers Exposed to View: Threaded rod and angle or channel supports. E. Support vertical ducts with steel angles or channel secured to the sides of the duct with welds, bolts, sheet metal screws, or blind rivets; support at each floor and at a maximum intervals of 16 feet. F. Install upper attachments to structures. Select and size upper attachments with pull-out, tension, and shear capacities appropriate for supported loads and building materials where used. 3.5 SEISMIC-RESTRAINT-DEVICE INSTALLATION A. Install ducts with hangers and braces designed to support the duct and to restrain against seismic forces required by applicable building codes. Comply with SMACNA's "Seismic B. C. D. E. F. G. 3.6 A. B. 3.7 A. B. 1. Space lateral supports a maximum of 40 feet o.c., and longitudinal supports a maximum of 80 feet o.c. 2. Brace a change of direction longer than 12 feet. Select seismic-restraint devices with capacities adequate to carry present and future static and seismic loads. Install cables so they do not bend across edges of adjacent equipment or building structure. Install cable restraints on ducts that are suspended with vibration isolators. Install seismic-restraint devices using methods approved by [an evaluation service member of the ICC Evaluation Service] [the Office of Statewide Health Planning and Development for the State of California] [an agency acceptable to authorities having jurisdiction]. Attachment to Structure: If specific attachment is not indicated, anchor bracing and restraints to structure, to flanges of beams, to upper truss chords of bar joists, or to concrete members. Drilling for and Setting Anchors: 1. Identify position of reinforcing steel and other embedded items prior to drilling holes for anchors. Do not damage existing reinforcement or embedded items during drilling. Notify the Architect if reinforcing steel or other embedded items are encountered during drilling. Locate and avoid prestressed tendons, electrical and telecommunications conduit, and gas lines. 2. Do not drill holes in concrete or masonry until concrete, mortar, or grout has achieved full design strength. 3. Wedge Anchors: Protect threads from damage during anchor installation. Heavy-duty sleeve anchors shall be installed with sleeve fully engaged in the structural element to which anchor is to be fastened. 4. Set anchors to manufacturer's recommended torque, using a torque wrench. 5. Install zinc-coated steel anchors for interior applications and stainless-steel anchors for applications exposed to weather.] CONNECTIONS Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for branch, outlet and inlet, and terminal unit connections. PAINTING All ductwork required to be painted shall be cleaned and oil-free. Mechanical Contractor shall prepare ductwork surfaces accordingly to accept primer and paint. Paint interior of metal ducts that are visible through registers and grilles and that do not have duct liner. Apply one coat of flat, black, latex paint over a compatible galvanized-steel 3.8 FIELD QUALITY CONTROL A. Perform tests and inspections. B. Leakage Tests: 1. Comply with SMACNA's "HVAC Air Duct Leakage Test Manual." Submit a test report for each test. 2. Test the following systems: a. Ducts with a Pressure Class Higher Than 3-Inch wg: Test representative duct sections totaling no less than 25 percent of total installed duct area for each designated pressure class. b. Supply Ducts with a Pressure Class of 3-Inch wg or Higher: Test representative duct sections totaling no less than 50 percent of total installed duct area for each designated pressure class. c. Return Ducts with a Pressure Class of 3-Inch wg or Higher: Test representative duct sections totaling no less than 50 percent of total installed duct area for each designated pressure class. d. Exhaust Ducts with a Pressure Class of 3-Inch wg or Higher: Test representative duct sections totaling no less than 50 percent of total installed duct area for each designated pressure class. e. Outdoor Air Ducts with a Pressure Class of 3-Inch wg or Higher: Test representative duct sections totaling no less than 50 percent of total installed duct area for each designated pressure class. 3. Disassemble, reassemble, and seal segments of systems to accommodate leakage testing and for compliance with test requirements. 4. Test for leaks before applying external insulation. 5. Conduct tests at static pressures equal to maximum design pressure of system or section being tested. If static-pressure classes are not indicated, test system at maximum system design pressure. Do not pressurize systems above maximum design operating pressure. 6. Give seven days' advance notice for testing. C. Duct System Cleanliness Tests: 1. Visually inspect duct system to ensure that no visible copvcntaminants are present. 2. Systems." a. Acceptable Cleanliness Level: Net weight of debris collected on the filter media shall not exceed 0.75 mg/100 sq. cm. D. Duct system will be considered defective if it does not pass tests and inspections. E. Prepare test and inspection reports. 3.9 DUCT CLEANING A. Clean new and existing duct system(s) before testing, adjusting, and balancing. B. Use service openings for entry and inspection. 1. Create new openings and install access panels appropriate for duct static-pressure class if required for cleaning access. Provide insulated panels for insulated or lined duct. Patch C. D. E. 2. Disconnect and reconnect flexible ducts as needed for cleaning and inspection. 3. Remove and reinstall ceiling to gain access during the cleaning process. Particulate Collection and Odor Control: 1. When venting vacuuming system inside the building, use HEPA filtration with 99.97 percent collection efficiency for 0.3-micron-size (or larger) particles. 2. When venting vacuuming system to outdoors, use filter to collect debris removed from HVAC system, and locate exhaust downwind and away from air intakes and other points of entry into building. Clean the following components by removing surface contaminants and deposits: 1. Air outlets and inlets (registers, grilles, and diffusers). 2. Supply, return, and exhaust fans including fan housings, plenums (except ceiling supply and return plenums), scrolls, blades or vanes, shafts, baffles, dampers, and drive assemblies. 3. Air-handling unit internal surfaces and components including mixing box, coil section, air wash systems, spray eliminators, condensate drain pans, humidifiers and dehumidifiers, filters and filter sections, and condensate collectors and drains. 4. Coils and related components. 5. Return-air ducts, dampers, actuators, and turning vanes except in ceiling plenums and mechanical equipment rooms. 6. Supply-air ducts, dampers, actuators, and turning vanes. 7. Dedicated exhaust and ventilation components and makeup air systems. Mechanical Cleaning Methodology: 1. Clean metal duct systems using mechanical cleaning methods that extract contaminants from within duct systems and remove contaminants from building. 2. Use vacuum-collection devices that are operated continuously during cleaning. Connect vacuum device to downstream end of duct sections so areas being cleaned are under negative pressure. 3. Use mechanical agitation to dislodge debris adhered to interior duct surfaces without damaging integrity of metal ducts, duct liner, or duct accessories. 4. Clean fibrous-glass duct liner with HEPA vacuuming equipment; do not permit duct liner to get wet. Replace fibrous-glass duct liner that is damaged, deteriorated, or delaminated or that has friable material, mold, or fungus growth. 5. straighten fins. 6. Provide drainage and cleanup for wash-down procedures. 7. Antimicrobial Agents and Coatings: Apply EPA-registered antimicrobial agents if fungus is present. Apply antimicrobial agents according to manufacturer's written instructions after removal of surface deposits and debris. START UP 3.10 A. END OF SECTION 23 31 13.00 SECTION 23 33 00.00 - AIR DUCT ACCESSORIES PART 1 GENERAL 1.1 RELATED DOCUMENTS A. 1.2 SUMMARY A. Section Includes: 1. Backdraft and pressure relief dampers. 2. Manual volume dampers. 3. Combination fire and smoke dampers. 4. Flange connectors. 5. Turning vanes. 6. Duct-mounted access doors. 7. Flexible connectors. 8. Flexible ducts. 9. Duct accessory hardware. 1.3 MAINTENANCE MATERIAL SUBMITTALS A. Furnish extra materials that match products installed and that are packaged with protective covering for storage and identified with labels describing contents. 1. Fusible Links: Furnish quantity equal to 10 percent of amount installed. PART 2 PRODUCTS 2.1 ASSEMBLY DESCRIPTION A. B. Comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" for acceptable materials, material thicknesses, and duct construction methods unless otherwise indicated. Sheet metal materials shall be free of pitting, seam marks, roller marks, stains, discolorations, and other imperfections. 2.2 MATERIALS A. 1. Galvanized Coating Designation: G90. 2. Exposed-Surface Finish: Mill phosphatized. B. Reinforcement Shapes and Plates: Galvanized-steel reinforcement where installed on galvanized sheet metal ducts; compatible materials for aluminum and stainless-steel ducts. C. Tie Rods: Galvanized steel, 1/4-inch minimum diameter for lengths 36 inches or less; 3/8-inch minimum diameter for lengths longer than 36 inches. 2.3 BACKDRAFT AND PRESSURE RELIEF DAMPERS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Air Balance Inc.; a division of Mestek, Inc . 2. American Warming and Ventilating; a division of Mestek, Inc . 3. Cesco Products; a division of Mestek, Inc . 4. Greenheck Fan Corporation . 5. Lloyd Industries, Inc. 6. Nailor Industries Inc. 7. NCA Manufacturing, Inc . 8. Pottorff . 9. Ruskin Company. 10. Vent Products Company, Inc . B. Description: Gravity balanced. C. Maximum Air Velocity: 3000 fpm. D. Maximum System Pressure: 3-inch wg. E. F. Blades: Multiple single-piece blades, 0.050-inch- thick aluminum sheet with sealed edges. G. Blade Action: Parallel. H. Blade Seals: Extruded vinyl, mechanically locked. I. J. K. L. M. 2.4 A. B. C. 2.5 A. B. C. D. E. Blade Axles: 1. Material: Aluminum. 2. Diameter: 0.20 inch. Tie Bars and Brackets: Aluminum. Return Spring: Adjustable tension. Bearings: Bearings shall be dustproof ball type for low pressure operation. Accessories: 1. Adjustment device to permit setting for varying differential static pressure. 2. Counterweights and spring-assist kits for vertical airflow installations. 3. Electric actuators. 4. Chain pulls. 5. Screen Mounting: Front mounted in sleeve. a. Sleeve Thickness: 20 gage minimum. b. Sleeve Length: 6 inches minimum. 6. Screen Mounting: Rear mounted. 7. Screen Material: Aluminum. 8. Screen Type: Bird. 9. 90-degree stops. MANUAL VOLUME DAMPERS Standard, Steel, Manual Volume Dampers: 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Air Balance Inc.; a division of Mestek, Inc . b. American Warming and Ventilating; a division of Mestek, Inc . c. Flexmaster U.S.A., Inc. d. McGill AirFlow LLC. e. Nailor Industries Inc. f. Pottorff . g. Ruskin Company. h. Trox USA Inc. i. Vent Products Company, Inc . j. Greenheck 2. Standard leakage rating. 3. Suitable for horizontal or vertical applications. 4. For units less than 36" wide by 12" high a. Frame shall be 22 gage galvanized steel. b. Blade shall be single skin, 22 gage galvanized steel with center "V" groove for reinforcement. c. Bearings shall be corrosion resistant synthetic sleeve type turning in an extruded hole in the damper frame. d. Axles shall be 3/8" square shaft positively locked into damper blade. 5. For units over 36" wide by 12" high a. Frame shall be 18 gage galvanized steel formed into a structural hat channel shape with tabbed corners for reinforcement. b. Blades shall be single skin 18 gage galvanized steel with three longitudinal grooves for reinforcement. c. Bearings shall be corrosion resistant synthetic sleeve type turning in an extruded hole in the damper frame. d. Axles shall be hexagonal positively locked into damper blade. Jackshaft: 1. Size: 1-inch diameter. 2. Material: Galvanized-steel pipe rotating within pipe-bearing assembly mounted on supports at each mullion and at each end of multiple-damper assemblies. 3. Length and Number of Mountings: As required to connect linkage of each damper in multiple-damper assembly. Damper Hardware: 1. Zinc-plated, die-cast core with dial and handle made of 3/32-inch- thick zinc-plated steel, and a 3/4-inch hexagon locking nut. 2. Include center hole to suit damper operating-rod size. 3. Include elevated platform for insulated duct mounting. CONTROL DAMPERS Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. American Warming and Ventilating; a division of Mestek, Inc . 2. Arrow United Industries; a division of Mestek, Inc . 3. Cesco Products; a division of Mestek, Inc . 4. Greenheck Fan Corporation . 5. Lloyd Industries, Inc. 6. McGill AirFlow LLC. 7. Metal Form Manufacturing, Inc . 8. Nailor Industries Inc. 9. NCA Manufacturing, Inc. 10. Pottorff . 11. Ruskin Company. 12. Vent Products Company, Inc . 13. Young Regulator Company . All louvers, gravity roof ventilators, etc. shall have motor operated dampers. Dampers shall be low leak with blade and edge seals. All motor operated dampers shall be furnished and installed by the mechanical contractor, unless otherwise noted. All damper actuators shall be furnished, installed and wired by the TCC, unless damper & actuator are provided by equipment manufacturer. TCC shall provide all necessary transformers, contactors, controls and wiring for interlocking equipment to motor operated dampers. Frames shall be 4" x 1" x 0.081" minimum thickness, 6063T5 extruded aluminum hat channel with hat mounting flanges on both sides of the frame. Each corner shall be reinforced with two die formed internal braces and machine staked for maximum rigidity. Blades shall be airfoil type extruded aluminum, maximum 4" depth, with integral structural reinforcing tube running full length of each blade. Blade edge seals shall be extruded vinyl double edge design with inflatable pocket which enables air pressure from either direction to assist in blade to blade seal off. Blades seals shall be mechanically locked in extruded blade slots, yet shall be easily replaceable in field. Adhesive or clip-on type blade seals are not acceptable. Bearings shall be non-corrosive molded synthetic. Axles shall be hexagonal to provide positive locking connection to blades and linkage. Round axles are not acceptable. Linkage shall be concealed in frame. F. G. Dampers shall be parallel blade for 2-position control and opposed blade for modulating control. H. Control dampers wired to emergency power shall have spring loaded normally closed actuators. 2.6 NOT USED 2.7 FLANGE CONNECTORS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Ductmate Industries, Inc. 2. Nexus PDQ; Division of Shilco Holdings Inc . 3. Ward Industries, Inc.; a division of Hart & Cooley, Inc . B. Description: Add-on or roll-formed, factory-fabricated, slide-on transverse flange connectors, gaskets, and components. C. Material: Galvanized steel. D. Gage and Shape: Match connecting ductwork. 2.8 TURNING VANES A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Aero Dyne. 2. Ductmate Industries, Inc. 3. Duro Dyne Inc. 4. Elgen Manufacturing. 5. METALAIRE, Inc. 6. SEMCO Incorporated. 7. Ward Industries, Inc.; a division of Hart & Cooley, Inc . B. Manufactured Turning Vanes for Metal Ducts: Curved blades of galvanized sheet steel; support with bars perpendicular to blades set; set into vane runners suitable for duct mounting. 1. Acoustic Turning Vanes: Fabricate airfoil-shaped aluminum extrusions with perforated faces and fibrous-glass fill. C. Manufactured Turning Vanes for Nonmetal Ducts: Fabricate curved blades of resin-bonded fiberglass with acrylic polymer coating; support with bars perpendicular to blades set; set into vane runners suitable for duct mounting. D. Elbows." E. Vane Construction: Single wall for ducts up to 48 inches wide and double wall for larger dimensions. 2.9 NOT USED. B. Panels," and 7-3, "Access Doors - Round Duct." 1. Door: a. Double wall, rectangular. b. Galvanized sheet metal with insulation fill and thickness as indicated for duct pressure class. c. Vision panel. d. Hinges and Latches: 1-by-1-inchbutt or piano hinge and cam latches. e. Fabricate doors airtight and suitable for duct pressure class. 2. Frame: Galvanized sheet steel, with bend-over tabs and foam gaskets. 3. Number of Hinges and Locks: a. Access Doors Less Than 12 Inches Square: No hinges and two sash locks. b. Access Doors up to 18 Inches Square: Two hinges Continuous and two sash locks. c. d. Access Doors Larger Than 24 by 48 Inches: Four hinges Continuous and two compression latches with outside and inside handles. C. Pressure Relief Access Door: 1. Door and Frame Material: Galvanized sheet steel. 2. Door: Double wall with insulation fill with metal thickness applicable for duct pressure class.Operation: Open outward for positive-pressure ducts and inward for negative-pressure ducts.Factory set at 3.0- to 8.0-inch wg. 3. Doors close when pressures are within set-point range. 4. Hinge: Continuous piano. 5. Latches: Cam. 6. Seal: Neoprene or foam rubber. 7. Insulation Fill: 1-inch- thick, fibrous-glass or polystyrene-foam board. 2.10 NOT USED. B. C. D. E. F. 2.11 A. Panel and Frame: Minimum thickness 0.0528-inch carbon steel. Fasteners: Carbon steel. Panel fasteners shall not penetrate duct wall. Minimum Pressure Rating: 10-inch wg, positive or negative. FLEXIBLE CONNECTORS Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Ductmate Industries, Inc. 2. Duro Dyne Inc. 3. Elgen Manufacturing. 4. Ventfabrics, Inc. 5. Ward Industries, Inc.; a division of Hart & Cooley, Inc . B. Materials: Flame-retardant or noncombustible fabrics. C. D. Metal-Edged Connectors: Factory fabricated with a fabric strip 3-1/2 inches wide attached to two strips of 2-3/4-inch- wide, 0.028-inch- thick, galvanized sheet steel or 0.032-inchthick aluminum sheets. Provide metal compatible with connected ducts. E. Indoor System, Flexible Connector Fabric: Glass fabric double coated with neoprene. 1. Minimum Weight: 26 oz./sq. yd.. 2. Tensile Strength: 480 lbf/inch in the warp and 360 lbf/inch in the filling. 3. 2.12 FLEXIBLE DUCTS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Flexmaster U.S.A., Inc. 2. McGill AirFlow LLC. 3. Ward Industries, Inc.; a division of Hart & Cooley, Inc . B. 1. Pressure Rating: 10-inch wg positive and 1.0-inch wg negative. 2. Maximum Air Velocity: 4000 fpm. 3. C. 1. Pressure Rating: 10-inch wg positive and 1.0-inch wg negative. 2. Maximum Air Velocity: 4000 fpm. 3. 4. Insulation R-value: Comply with ASHRAE/IESNA 90.1. D. Flexible Duct Connectors: 1. Clamps: Stainless-steel band with cadmium-plated hex screw to tighten band with a worm-gear action or Nylon strap in sizes 3 through 18 inches, to suit duct size. 2.13 DUCT ACCESSORY HARDWARE A. Instrument Test Holes: Cast iron or cast aluminum to suit duct material, including screw cap and gasket. Size to allow insertion of pitot tube and other testing instruments and of length to suit duct-insulation thickness. B. Adhesives: High strength, quick setting, neoprene based, waterproof, and resistant to gasoline and grease. PART 3 EXECUTION 3.1 INSTALLATION A. Glass Duct Construction Standards," for fibrous-glass ducts. B. Install duct accessories of materials suited to duct materials; use galvanized-steel accessories in galvanized-steel and fibrous-glass ducts, stainless-steel accessories in stainless-steel ducts, and aluminum accessories in aluminum ducts. C. Install volume dampers at points on supply, return, and exhaust systems where branches extend from larger ducts. Where dampers are installed in ducts having duct liner, install dampers with hat channels of same depth as liner, and terminate liner with nosing at hat channel. These dampers, whether shown or the drawings or not, shall be installed at no additional cost to the Owner. Consult with Testing, Adjusting, and Balancing Agency prior to ductwork installation to establish damper locations 1. Install steel volume dampers in steel ducts. E. Set dampers to fully open position before testing, adjusting, and balancing. F. Install test holes at fan inlets and outlets and elsewhere as indicated. G. H. Install duct access doors on sides of ducts to allow for inspecting, adjusting, and maintaining accessories and equipment at the following locations: 1. On both sides of duct coils. 2. 3. At outdoor-air intakes and mixed-air plenums. 4. At drain pans and seals. 5. Downstream from manual volume dampers, control dampers, backdraft dampers, and equipment. 6. Adjacent to and close enough to fire or smoke dampers, to reset or reinstall fusible links. Access doors for access to fire or smoke dampers having fusible links shall be pressure relief access doors and shall be outward operation for access doors installed upstream from dampers and inward operation for access doors installed downstream from dampers. 7. At each change in direction and at maximum 50-foot spacing. 8. 9. Upstream or downstream from duct silencers. 10. Control devices requiring inspection. 11. Elsewhere as indicated. I. Install access doors with swing against duct static pressure. J. Access Door Sizes: 1. One-Hand or Inspection Access: 8 by 5 inches. 2. Two-Hand Access: 12 by 6 inches. 3. Head and Hand Access: 18 by 10 inches. 4. Head and Shoulders Access: 21 by 14 inches. 5. Body Access: 25 by 14 inches. 6. Body plus Ladder Access: 25 by 17 inches. K. L. Install flexible connectors to connect ducts to equipment. M. For fans developing static pressures of 5-inch wg and more, cover flexible connectors with loaded vinyl sheet held in place with metal straps. N. Connect terminal units to supply ducts with maximum 12-inch lengths of flexible duct. Do not use flexible ducts to change directions. O. Connect diffusers or light troffer boots to ducts with maximum 60-inch lengths of flexible duct clamped or strapped in place. P. Connect flexible ducts to metal ducts with draw bands. Q. Install duct test holes where required for testing and balancing purposes. R. Install thrust limits at centerline of thrust, symmetrical on both sides of equipment. Attach thrust limits at centerline of thrust and adjust to a maximum of 1/4-inch movement during start and stop of fans. 3.2 FIELD QUALITY CONTROL A. Tests and Inspections: 1. Operate dampers to verify full range of movement. 2. Inspect locations of access doors and verify that purpose of access door can be performed. 3. Operate fire, smoke, and combination fire and smoke dampers to verify full range of movement and verify that proper heat-response device is installed.] 4. Inspect turning vanes for proper and secure installation. END OF SECTION 23 33 00.00 SECTION 23 34 23.00 - HVAC POWER VENTILATORS PART 1 GENERAL 1.1 SUMMARY A. Section Includes: 1. Centrifugal roof ventilators. 1.2 QUALITY ASSURANCE A. B. AMCA Compliance: Fans shall have AMCA-Certified performance ratings and shall bear the AMCA-Certified Ratings Seal. C. 1.3 COORDINATION A. Coordinate size and location of structural-steel support members. B. Coordinate sizes and locations of roof curbs, equipment supports, and roof penetrations with actual equipment provided. PART 2 PRODUCTS 2.1 CENTRIFUGAL ROOF VENTILATORS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following: 1. Acme Engineering & Manufacturing Corporation . 2. Breidert Air Products. 3. Carnes Company. 4. Greenheck Fan Corporation. 5. Loren Cook Company. 6. PennBarry. B. Housing: Provide the Following Types of Housing Design: 1. galvanized steel, mushroom-domed top C. Hinged Subbase: Galvanized-steel hinged arrangement permitting service and maintenance. D. Fan Wheels: Aluminum hub and wheel with backward-inclined blades. E. Belt Drives: 1. Resiliently mounted to housing. 2. Fan Shaft: Turned, ground, and polished steel; keyed to wheel hub. 3. Shaft Bearings: Permanently lubricated, permanently sealed, self-aligning ball bearings. 4. Pulleys: Cast-iron, adjustable-pitch motor pulley. 5. Fan and motor isolated from exhaust airstream. F. Accessories: 1. Disconnect Switch: Provide NEMA 3R, nonfusible type, with thermal-overload protection factory mounted outside fan housing, factory wired through an internal aluminum conduit. a. For three phase integral HP fans use a NEMA 3R safety switch. 2. Bird Screens: Removable, 1/2-inch mesh, aluminum or brass wire. G. Roof Curbs: Provide factory fabricated roof curb by the same manufacturer as the equipment. Roof curb to be insulated. 2.2 MOTORS A. Requirements for HVAC Equipment." 1. Motor Sizes: Minimum size as indicated. If not indicated, large enough so driven load will not require motor to operate in service factor range above 1.0. 2.3 SOURCE QUALITY CONTROL A. "Reverberant Room Method for Sound Testing of Fans." Label fans with the AMCA-Certified Ratings Seal. B. Testing Fans for Aerodynamic Performance Rating." Label fans with the AMCA-Certified Ratings Seal. PART 3 EXECUTION 3.1 INSTALLATION A. Install power ventilators level and plumb. B. Secure roof-mounted fans to roof curbs with cadmium-plated hardware. C. Ceiling Units: Suspend units from structure; use steel wire or metal straps. D. Install units with clearances for service and maintenance. E. 3.2 CONNECTIONS A. "Air Duct Accessories." B. Install ducts adjacent to power ventilators to allow service and maintenance. C. D. 3.3 FIELD QUALITY CONTROL A. Perform tests and inspections. 1. Manufacturer's Field Service: Engage a factory-authorized service representative to inspect components, assemblies, and equipment installations, including connections, and to assist in testing. B. Tests and Inspections: 1. Verify that shipping, blocking, and bracing are removed. 2. Verify that unit is secure on mountings and supporting devices and that connections to ducts and electrical components are complete. Verify that proper thermal-overload protection is installed in motors, starters, and disconnect switches. 3. Verify that cleaning and adjusting are complete. 4. Disconnect fan drive from motor, verify proper motor rotation direction, and verify fan wheel free rotation and smooth bearing operation. Reconnect fan drive system, align and adjust belts, and install belt guards. 5. Adjust belt tension. 6. Adjust damper linkages for proper damper operation. 7. Verify lubrication for bearings and other moving parts. 8. Verify that manual and automatic volume control and fire and smoke dampers in connected ductwork systems are in fully open position. 9. Disable automatic temperature-control operators, energize motor and adjust fan to indicated rpm, and measure and record motor voltage and amperage. 10. Shut unit down and reconnect automatic temperature-control operators. 11. Remove and replace malfunctioning units and retest as specified above. C. Test and adjust controls and safeties. Replace damaged and malfunctioning controls and equipment. D. Prepare test and inspection reports. 3.4 ADJUSTING A. Adjust damper linkages for proper damper operation. B. Adjust belt tension. C. D. Replace fan and motor pulleys as required to achieve design airflow. E. Lubricate bearings. END OF SECTION 23 34 23.00 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 ISSUED FOR CONSTRUCTION SECTION 23 36 00.00 - AIR TERMINAL UNITS PART 1 GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and Division 01 Specification Sections, apply to this Section. 1.2 SUMMARY A. Section Includes: 1. Shutoff, single-duct air terminal units. B. Provide the following electrical work as work of this section, complying with requirements of Division 26 sections: 1. Power all 120 volt power and low voltage wiring for all VAV boxes including wiring to controllers, actuators, valves, dampers, etc. from power source to power connections. Provide transformers and low voltage wiring to all devices. 2. Provide new circuit breaker(s) in spare(s) at panel board with 120 volt wiring to all transformers. Include transformers, disconnects and required electrical devices. 3. Provide all control wiring between field-installed controls and air terminals. C. Refer to Division 26 for the following work; not work of this section: 1. Power supply wiring for electric heat and fans. D. Related Sections: 1. 1.3 PERFORMANCE REQUIREMENTS A. 1.4 SUBMITTALS A. Product Data: For each type of the following products, including rated capacities, furnished specialties, sound-power ratings, and accessories. 1. Air terminal units. 2. Liners and adhesives. 3. Sealants and gaskets. B. LEED Submittals: 1. C. Shop Drawings: For air terminal units. Include plans, elevations, sections, details, and attachments to other work. 1. Detail equipment assemblies and indicate dimensions, weights, loads, required clearances, method of field assembly, components, and location and size of each field connection. 2. Wiring Diagrams: For power, signal, and control wiring. 3. 4. Include a schedule showing unique model designation, room location, model number, size, and accessories furnished. D. Delegated-Design Submittal: 1. Materials, fabrication, assembly, and spacing of hangers and supports. 2. E. Coordination Drawings: Reflected ceiling plans, drawn to scale, on which the following items are shown and coordinated with each other, using input from Installers of the items involved: 1. Ceiling suspension assembly members. 2. Size and location of initial access modules for acoustic tile. 3. Ceiling-mounted items including lighting fixtures, diffusers, grilles, speakers, sprinklers, access panels, and special moldings. F. Field quality-control reports. G. and Maintenance Data," include the following: 1. Instructions for resetting minimum and maximum air volumes. 2. Instructions for adjusting software set points. 1.5 QUALITY ASSURANCE A. B. C. Comply with ARI 880 standard for terminal boxes D. Comply with ARI 410 standard for reheat coils. E. Identification: Provide label on each unit indicating Plant Number, CFM Range, CFM factory setting, and calibration curve (if required). 1.6 TEMPERATURE CONTROL INTEGRATION A. points as specified. The control and monitoring points shall be capable of communication to the temperature control contractor via open protocol. Coordinate with the temperature control contractor for communication requirements. Provide controllers and protocols as required by the temperature controls contractor for seamless integration. PART 2 PRODUCTS 2.1 SHUTOFF, SINGLE-DUCT AIR TERMINAL UNITS A. Manufacturers: Subject to compliance with requirements, provide products by one of the following 1. Price Industries 2. Titus 3. Trane 4. Johnson Controls 5. Carrier 6. Enviro-Tec B. Configuration: Volume-damper assembly arrangement inside unit casing and control components inside a protective metal shroud. The assemblies shall be pressure independent and shall reset to any flow between zero and the maximum catalogued air volume. C. Casing: Construct of die-cast aluminum or 22 gauge galvanized sheet metal. Provide airtight gasket and quarter turn latches. Provide hanger brackets for attachment of supports. Provide removable panels in casings to permit access to air dampers and other parts requiring service, adjustment or maintenance. 1. Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 PERMIT SET HVAC SPECIFICATIONS Project # a. b. Double wall construction Air Inlets: Round stub connections or S-slip and drive connections for duct attachment. Air Outlet: S-slip and drive connections. Access: Removable panels for access to parts requiring service, adjustment, or maintenance; with airtight gasket and quarter-turn latches. Fan: Forward-curved centrifugal, located at plenum air inlet. 2. 3. 4. 5. 6. D. Construct of materials that cannot corrode, do not require lubrication, nor require periodic servicing. Provide maximum volume dampers, with velocity rings, both pressure dependent and pressure compensated, that are calibrated in cfm, factory-adjusted, and marked for specified air capacities. Provide mechanism to vary air volume thru damper for minimum to maximum, in response from signal from thermostat. E. Volume Damper: Galvanized steel with flow-sensing ring and peripheral gasket and self-lubricating bearings. 1. subjected to 0.5-in wg pressure for low pressure units, and 3.0-in wg pressure for high pressure unitsf, total leakage does not exceed 3% of specified air flow capacity with outlets sealed and inlets wide open. Construct air dampers such that when subjected to 6.0-in wg inlet pressure with damper closed, total leakage does not 3393 Peachtree Road NE Atlanta, GA 1.4 INFORMATIONAL SUBMITTALS A. Coordination Drawings: Plans, drawn to scale, on which the following items are shown and coordinated with each other, using input from installers of the items involved: 1. Duct installation in congested spaces, indicating coordination with general construction, building components, and other building services. Indicate proposed changes to duct layout. 2. Suspended ceiling components. 3. Structural members to which duct will be attached. 4. Size and location of initial access modules for acoustical tile. 5. Penetrations of smoke barriers and fire-rated construction. 6. Items penetrating finished ceiling including the following: a. Lighting fixtures. b. Air outlets and inlets. c. Speakers. d. Sprinklers. e. Access panels. B. Field quality-control reports. 1.5 QUALITY ASSURANCE A. 1. Seal shall provide maximum 3 cfm/100 sq. ft. at 1-inch wg and shall be rated for10-inch wg static-pressure class, positive or negative. 2. EPDM O-ring to seal in concave bead in coupling or fitting spigot. 2.8 HANGERS AND SUPPORTS A. Hanger Rods for Noncorrosive Environments: Cadmium-plated steel rods and nuts. B. Hanger Rods for Corrosive Environments: Electrogalvanized, all-thread rods or galvanized rods with threads painted with zinc-chromate primer after installation. C. "Minimum Hanger Sizes for Round Duct." D. E. F. Steel Cable End Connections: Cadmium-plated steel assemblies with brackets, swivel, and bolts designed for duct hanger service; with an automatic-locking and clamping device. G. Duct Attachments: Sheet metal screws, blind rivets, or self-tapping metal screws; compatible with duct materials. H. Trapeze and Riser Supports: 1. Supports for Galvanized-Steel Ducts: Galvanized-steel shapes and plates. nike retail interiors SECTION 23 31 13.00 - METAL DUCTS PART 1 GENERAL 1.1 SUMMARY A. Section Includes: 1. Single-wall rectangular ducts and fittings. 2. 3. Sheet metal materials. 4. Duct liner. 5. Sealants and gaskets. 6. Hangers and supports. 7. Double-wall rectangular ducts and fittings. 8. 1.2 PERFORMANCE REQUIREMENTS A. Duct construction, including sheet metal thicknesses, seam and joint construction, reinforcements, and hangers and supports, shall comply with SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" and performance requirements and design criteria indicated in "Duct Schedule" Article. B. described in SMACNA's "HVAC Duct Construction Standards - Metal and Flexible" SMACNA's "Seismic Restraint Manual: Guidelines for Mechanical Systems." C. 1.3 ACTION SUBMITTALS A. Product Data: For each type of the following products: 1. Liners and adhesives. 2. Sealants and gaskets. 3. Seismic-restraint devices. B. LEED Submittals: 1. 2. Insulation." 3. 4. 5. C. Shop Drawings: 1. Fabrication, assembly, and installation, including plans, elevations, sections, components, and attachments to other work. 2. Factory- and shop-fabricated ducts and fittings. 3. Duct layout indicating sizes, configuration, liner material, and static-pressure classes. 4. Elevation of top of ducts. 5. Dimensions of main duct runs from building grid lines. 6. Fittings. 7. Reinforcement and spacing. 8. Seam and joint construction. 9. Penetrations through fire-rated and other partitions. 10. Equipment installation based on equipment being used on Project. 11. Locations for duct accessories, including dampers, turning vanes, and access doors and panels. 12. D. Ductwork Submittal: 1. Sheet metal thicknesses. 2. Joint and seam construction and sealing. 3. Reinforcement details and spacing. 4. Materials, fabrication, assembly, and spacing of hangers and supports. 5. 13272 M4.02 Date: 02.22.2013 2. H. Multioutlet Attenuator Section: Lined with multiple outlets each with locking butterfly balancing damper. Refer to drawings for number and size of outlets. I. Sound Power Levels: Provide sound power levels not exceeding the following: Radiated: Discharge Sound: a. 2nd octave: 65 68 b. 3rd octave: 60 68 c. 4th octave: 55 65 d. 5th octave: 49 60 e. 6th octave: 40 57 f. 7th octave: 34 57 g. NC: 30 28 J. Controls General: Each VAV air terminal shall be equipped with the following: 1. Each terminal shall have both discharge air temperature and supply CFM sensors 2. VAV air terminal manufacturer shall factory install DDC Controls for boxes at their factory as provided by the Temperature Control Contractor. Box manufacturer shall coordinate and be responsible for this mounting cost. K. NOT USED. Electric-Resistance Heating Coils: Nickel-chromium heating wire, free of expansion noise and hum, mounted in ceramic inserts in a galvanized-steel housing; with primary automatic, and secondary manual, reset thermal cutouts. Terminate elements in stainless-steel, machine-staked terminals secured with stainless-steel hardware. 1. Location: Plenum air inlet. 2. Stage(s): See Equipment Schedule on drawings 3. Access door interlocked disconnect switch. 4. Downstream air temperature sensor with local connection to override discharge-air temperature to not exceed a maximum temperature set point (adjustable.) 5. Nickel chrome 80/20 heating elements. 6. Airflow switch for proof of airflow. 7. Fan interlock contacts. 8. 9. Mercury contactors. 10. Pneumatic-electric switches and relays. 11. Magnetic contactor for each step of control (for three-phase coils). M. Electric Controls: 24-V damper actuator with wall-mounted electric thermostat and appropriate mounting hardware. N. NOT USED. 2.4 L. O. 2.2 HANGERS AND SUPPORTS A. B. Hanger Rods for Noncorrosive Environments: Cadmium-plated steel rods and nuts. C. Hanger Rods for Corrosive Environments: Electrogalvanized, all-thread rods or galvanized rods with threads painted with zinc-chromate primer after installation. D. environments). E. Steel Cable End Connections: Cadmium-plated steel assemblies with brackets, swivel, and bolts designed for duct hanger service; with an automatic-locking and clamping device. F. Air Terminal Unit Attachments: Sheet metal screws, blind rivets, or self-tapping metal screws; compatible with duct materials. G. Trapeze and Riser Supports: Steel shapes and plates for units with steel casings; aluminum for units with aluminum casings. 2.3 SOURCE QUALITY CONTROL A. 1. Label each air terminal unit with plan number, nominal airflow, maximum and minimum factory-set airflows, coil type, and ARI certification seal. PART 3 EXECUTION 3.1 INSTALLATION A. B. Install air terminal units level and plumb. Maintain sufficient clearance for normal service and maintenance. C. Install temperature control devices including but not limited to wall mounted sensors and/or thermostats. 3.2 HANGER AND SUPPORT INSTALLATION A. B. Building Attachments: Concrete inserts, powder-actuated fasteners, or structural-steel fasteners appropriate for construction materials to which hangers are being attached. 1. Where practical, install concrete inserts before placing concrete. 2. Install powder-actuated concrete fasteners after concrete is placed and completely cured. 3. Use powder-actuated concrete fasteners for standard-weight aggregate concretes and for slabs more than 4 inches thick. 4. Do not use powder-actuated concrete fasteners for lightweight-aggregate concretes and for slabs less than 4 inches thick. 5. Do not use powder-actuated concrete fasteners for seismic restraints. C. Hangers Exposed to View: Threaded rod and angle or channel supports. D. Install upper attachments to structures. Select and size upper attachments with pull-out, tension, and shear capacities appropriate for supported loads and building materials where used. 3.3 CONNECTIONS A. Install piping adjacent to air terminal unit to allow service and maintenance. B. C. 3.4 IDENTIFICATION A. "Identification for HVAC Piping and Equipment" for equipment labels and warning signs and labels. 3.5 FIELD QUALITY CONTROL A. Testing Agency: Engage a qualified testing agency to perform tests and inspections. B. Perform tests and inspections per manufacturer's instructions and recommendations. C. Tests and Inspections: 1. After installing air terminal units and after electrical circuitry has been energized, test for compliance with requirements. 2. Leak Test: After installation, fill water coils and test for leaks. Repair leaks and retest until no leaks exist. 3. Operational Test: After electrical circuitry has been energized, start units to confirm proper motor rotation and unit operation. 4. Test and adjust controls and safeties. Replace damaged and malfunctioning controls and equipment. D. Air terminal unit will be considered defective if it does not pass tests and inspections. E. Prepare written test and inspection reports. Identify any discrepancies in operation and/or performance. Provide recommendations. 3.6 STARTUP SERVICE A. Perform startup service. 1. Complete installation and startup checks according to manufacturer's written instructions. 2. Verify that inlet duct connections are as recommended by air terminal unit manufacturer to achieve proper performance. 3. Verify that controls and control enclosure are accessible. 4. Verify that control connections are complete. 5. Verify that nameplate and identification tag are visible. 6. Verify that controls respond to inputs as specified. 3.7 DEMONSTRATION A. Train Owner's maintenance personnel to adjust, operate, and maintain air terminal units. END OF SECTION 23 36 00.00 SECTION 23 37 13.00 - DIFFUSERS, REGISTERS, AND LOUVERS PART 1 GENERAL 1.1 SUMMARY A. Section Includes: 1. Rectangular and square ceiling diffusers. 2. Supply registers and grilles. 3. Fixed face registers and grilles. 4. Drum Louvers 5. Linear Slot Diffusers PART 2 PRODUCTS 2.1 CEILING DIFFUSERS A. Square Ceiling Diffusers: Price, Model SPD square plaque diffuser - CD 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Anemostat Products; a Mestek company . b. Carnes. c. Krueger. d. METALAIRE, Inc. e. Nailor Industries Inc. f. Price Industries. g. Titus. h. Tuttle & Bailey. 2. Devices shall be specifically designed for variable-air-volume flows. 3. Material: Steel (Aluminum in moist areas). 4. Finish: Baked enamel, white. 5. Face Size: 24 by 24 inches. 6. Face Style: Three cone or Plaque. 7. Mounting: Surface or T-bar. 8. Pattern: Fixed or Adjustable. 9. Dampers: Butterfly in drywall applications. 10. Accessories: a. Equalizing grid. b. Plaster ring. B. Supply Registers and Grilles: Price, Model 520 - SR 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Anemostat Products; a Mestek company . b. Carnes. c. METALAIRE, Inc. d. Nailor Industries Inc. e. Price Industries. f. Titus. g. Tuttle & Bailey. 2. Devices shall be specifically designed for variable-air-volume flows. 3. Material: Steel or Aluminum in moist areas. 4. Finish: Baked enamel, white. 5. Face Size: On Drawings 6. Mounting: Surface or T-bar. 7. Pattern: Adjustable core style. 8. Dampers: Butterfly. 9. Accessories: a. Square to round neck adaptor. b. Adjustable pattern vanes. c. Throw reducing vanes. d. Equalizing grid. e. Plaster ring. f. Safety chain. g. Wire guard. h. Sectorizing baffles. i. Operating rod extension. 2.2 REGISTERS AND GRILLES: Price, Model 535/635 - TG A. Fixed Face Register 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Anemostat Products; a Mestek company . b. Carnes. c. Krueger. d. Nailor Industries Inc. e. Price Industries. f. Titus. g. Tuttle & Bailey. 2. Material: Steel or Aluminum in moist areas. 3. Finish: Baked enamel, white. 4. Face Arrangement: 1/2-by-1/2-by-1/2-inch grid core. 5. Core Construction: Integral. 6. Frame: 1-1/4 inches wide. 7. Mounting: Concealed. 8. Damper Type: Adjustable opposed blade. 9. Accessory: Filter. 2.3 HIGH-CAPACITY DIFFUSERS: Price, Model HCD1D B. Drum Louver - DL a. Anemostat Products; a Mestek company . b. Carnes. c. Krueger. d. METALAIRE, Inc. e. Nailor Industries Inc. f. Price Industries. g. Titus. h. Tuttle & Bailey. 2. Airflow Principle: Extended distance for high airflow rates. Material: Aluminum, heavy gage extruded. Finish: White baked acrylic. Border: 1-1/4-inch width with countersunk screw holes. Gasket between drum and border. Body: Drum shaped; adjustable vertically. Blades: Individually adjustable horizontally. Mounting: Surface to duct or wall. Inlet Width: [On Drawings] Inlet Length: [On Drawings] Accessories: a. Opposed-blade steel damper. b. Duct-mounting collars with countersunk screw holes. Linear Bar Grille: Price, Model LBP 15A - 18"x6" - LD 1. Manufacturers: Subject to compliance with requirements, provide products by one of the following: a. Anemostat Products; a Mestek company . b. Carnes. c. Krueger. d. METALAIRE, Inc. e. Nailor Industries Inc. f. Price Industries. g. Titus. h. Tuttle & Bailey. 2. Face Size: 18"x6" 3. Mounting: Surface or T-bar. 4. Pattern: Adjustable core style. 5. Dampers: Butterfly. 6. 7. Number of Bars: 20 Bars 8. Accessories: a. Square to round neck adaptor. b. Adjustable pattern vanes. c. Throw reducing vanes. d. Equalizing grid. e. Plaster ring. f. Safety chain. g. Wire guard. h. Sectorizing baffles. i. Operating rod extension. SOURCE QUALITY CONTROL 2.5 A. PART 3 EXECUTION 3.1 EXAMINATION A. Examine areas where diffusers, registers, and grilles are to be installed for compliance with requirements for installation tolerances and other conditions affecting performance of equipment. B. Proceed with installation only after unsatisfactory conditions have been corrected. 3.2 INSTALLATION A. Install diffusers, registers, and grilles level and plumb. B. Ceiling-Mounted Outlets and Inlets: Drawings indicate general arrangement of ducts, fittings, and accessories. Air outlet and inlet locations have been indicated to achieve design requirements for air volume, noise criteria, airflow pattern, throw, and pressure drop. Make final locations where indicated, as much as practical. For units installed in lay-in ceiling panels, locate units in the center of panel. Where architectural features or other items conflict with installation, notify Architect for a determination of final location. C. Install diffusers, registers, and grilles with airtight connections to ducts and to allow service and maintenance of dampers, air extractors, and fire dampers. D. 3.3 ADJUSTING A. After installation, adjust diffusers, registers, and grilles to air patterns indicated, or as directed, before starting air balancing. END OF SECTION 23 37 13.00 SECTION 23 74 33.00 - PACKAGED OUTDOOR ROOFTOP UNITS PART 1 GENERAL 1.1 RELATED DOCUMENTS A. 1.2 SUMMARY A. Section includes package rooftop heating and cooling units of the following: 1. Rooftop Heat Pump Units 2. Rooftop 25 Tons and Larger 3. Rooftop Less Than 25 Tons B. Related Sections: 1. 1.3 ACTION SUBMITTALS A. Product Data: Submit manufacturer's technical product data, including rated capacities of selected model clearly indicated, dimensions, required clearances, weights, furnished specialties and accessories; and installation and start-up instructions. B. Shop Drawings: Detail equipment assemblies and indicate dimensions, weights, loads, required clearances, methods of field assembly, components, and location and size of each field connection. Prepare the following by or under the supervision of a qualified professional engineer: 1. Mounting Details: For securing and flashing roof curb to roof structure. Indicate coordinating requirements with roof membrane system. C. Submit shop drawings detailing the manufacturer's electrical requirements for power supply wiring for rooftop heating and cooling units. Submit manufacturer's ladder-type wiring diagrams for interlock and control wiring. Clearly differentiate between portions of wiring that are factory-installed and portions to be field-installed. D. Submit shop drawings detailing the mounting, securing, and flashing of the roof curb to the roof structure. Indicate coordinating requirements with roof membrane system. E. Coordination Drawings: Rooftop replacement-air units to roof-curb mounting details drawn to scale, on which the following items are shown and coordinated with each other, based on input from installers of the items involved: 1. Size and location of rooftop replacement-air unit mounting rails and anchor points and methods for anchoring units to roof curb. 2. Required roof penetrations for ducts, pipes, and electrical raceways, including size and location of each penetration. F. Startup service reports. G. Operation and Maintenance Data: Submit maintenance data and parts list for each rooftop units, including "trouble-shooting" maintenance guide, servicing guide and preventative maintenance schedule and procedures. Include this data in maintenance manual; in accordance with requirements of Division 1. H. Warranty: Special warranty specified in this Section. Electrical Installer. 1. Condensate Pump a. F. Start-up rooftop units, in accordance with manufacturer's start-up instructions. Test controls and demonstration compliance with requirements. Replace damaged or malfunctioning controls and equipment. G. Condensate Piping: Provide Schedule 40 PVC condensate piping with trap. 2. 3.3 Electrical Connections: Refer to Section 16142 - Electrical Connections for Equipment for final connections to equipment and installation of loose shipped electrical components. 3.4 TRAINING OF OWNER'S PERSONNEL: A. Provide services of manufacturer's technical representative for 1-half day to instruct Owner's personnel in operation and maintenance of rooftop units. B. Schedule training with Owner, provide at least 7-day notice to Contractor and Engineer of training date. 3.5 SPARE PARTS: A. General: Furnish to Owner, with receipt, the following spare parts for each rooftop unit: 1. 1 set of matched fan belts for each belt-driven fan. 2. 1 set filters for each unit. 3.6 DEMONSTRATION: A. Start-Up Services: 1. Provide the services of a factory-authorized service representative to start-up rooftop units, in accordance with manufacturer's written start-up instructions. Test controls and demonstrate compliance with requirements. Replace damaged or malfunctioning controls and equipment. B. Operating and Maintenance Training: 1. Provide services of manufacturer's service representative to instruct Owner's personnel in operation and maintenance of rooftop units. Training shall include start-up and shut-down, servicing and preventative maintenance schedule and procedures, and troubleshooting procedures plus procedures for obtaining repair parts and technical assistance. Review operating and maintenance data contained in the Operating and Maintenance Manuals specified in Division One. 2. Schedule training with Owner, provide at least 7-day prior notice to the Architect/Engineer. END OF SECTION 23 74 33.00 SECTION 23 81 29.00 - DUCTLESS SPLIT SYSTEM AIR CONDITIONING UNITS PART 1 1.1 GENERAL RELATED DOCUMENTS A. Drawings and general provisions of Contract, including General and Supplementary Conditions and Division 1 Specification sections, apply to work of this section. 1.2 PART 3 3.1 The condensate pump shall remove condensate from the drain pan when gravity drainage cannot be used. Pump shall be designed for quiet operation. Pump shall consist of two parts: an internal reservoir/sensor assembly, and a remote sound-shielded pump assembly. The lift capability of the condensate pump shall be 1 to 10 ft (009 size unit) or 3 to 25 ft (012-024 size units). A level sensor on the condensate pan shall stop cooling operation if the level in the condensate pan is unacceptable. Electronic Programmable Thermostat a. Provide hard-wired wall thermostat secured to wall. (remote control stats are not acceptable). b. Thermostat shall be commercial grade and shall provide 7-day, 4-event scheduling. Integral subbase shall be included. Thermostat shall also provide 3-speed fan switchover capability, air sweep auto changeover, and shall not require a battery to retain memory.] EXECUTION INSPECTION: A. Examine areas and conditions under which air conditioning units are to be installed. Do not proceed with work until unsatisfactory conditions have been corrected in manner acceptable to Installer. 3.2 INSTALLATION OF DUCTLESS SPLIT SYSTEM UNITS: A. General: Install units in accordance with manufacturers installation instructions. Install units plumb and level, firmly anchored in locations indicated, and maintain manufacturer's recommended clearances. B. Support: Install exterior units on grade on 4" thick concrete pad. C. Support: Install exterior units on roof on equipment curb with flashing to roof. Provide curb type and flashing per roofing manufacturer requirements. 1. Outdoor Condensing Units 2. Indoor High Wall Units B. Refer to Division 26 sections for the following work; not work of this section. 1. Power supply wiring from power source to power connection on Air Conditioning units. Include starters, disconnects, and required electrical devices, except where specified as furnished, or factory-installed, by manufacturer. C. Provide the following electrical work as work of this section, complying with requirements of Division 26 sections: 1. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com D. local building code. See the architectural plans for coordination. E. Electrical Wiring: Install electrical devices furnished by manufacturer but not specified to be factory-mounted. Furnish copy of manufacturer's wiring diagram submittal to Electrical Installer. F. Verify that electrical wiring installation is in accordance with manufacturer's submittal and installation requirements of Division-26 sections. Do not proceed with equipment start-up until wiring installation is acceptable to equipment Installer. K L H G. Drain Piping: Connect unit drain to nearest indirect waste connection. Provide trap at drain pan; construct at least 1" deeper than fan pressure in inches of water. H. Start-up AC units, in accordance with manufacturer's start-up instructions. Test controls and demonstrate compliance with requirements. Replace damaged or malfunctioning controls and equipment. 3.3 TRAINING OF OWNER'S PERSONNEL: A. Provide services of manufacturer's technical representative for 1-half day to instruct Owner's personnel in operation and maintenance of units. Schedule training with Owner, provide at least 7-day notice to Contractor and Engineer of training date. SUMMARY A. Types of ductless split system units specified in this section include the following: END OF SECTION 23 81 29.00 KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 Interlock and Control wiring between field-installed controls, indicating devices, and unit control panels. D. Related Sections: 1. 1.3 Quality Assurance A. Test and rate systems in accordance with ARI 210/240. B. and marked for intended use. 1.4 WARRANTY: A. Warranty on Motor/Compressor: Provide written warranty, signed by manufacturer, agreeing to replace/repair, within warranty period, motors/compressors with inadequate or defective materials and workmanship, including leakage, breakage, improper assembly, or failure to perform as required; provided manufacturer's instructions for handling, installing, protecting, and maintaining units have been adhered to during warranty period. Replacement is limited to component replacement only, and does not include labor for removal and reinstallation. 1.5 SPARE PARTS: A. General: Furnish to Owner, with receipt, the following spare parts for AC unit: 1. 1 set of matched fan belts for each belt driven fan. 2. 1 set filters for each unit. PART 2 2.1 PRODUCTS MANUFACTURER: A. Subject to compliance with requirements, provide ductless split system air conditioning units of one of the following manufacturers: 1. 2.2 Carrier 2. Mitsubishi 3. Sanyo 4. EMI 5. Fujitsu 6. LG 7. Daikin 8. Samsung ISSUED FOR CONSTRUCTION OUTDOOR CONDENSING UNITS A. General 1. Factory assembled, single piece, air-cooled outdoor unit. Contained within the unit enclosure shall be all factory wiring, piping, controls, compressor, full charge of HFC refrigerant, and special features required prior to field start-up. B. Unit Cabinet 1. Unit cabinet shall be constructed of galvanized steel, bonderized and coated with a baked-enamel finish. 2. Unit access panels shall be removable with minimal screws and shall provide full acce4ss to the compressor, fan, and control components. 3. Outdoor compartment shall be isolated and have an acoustic lining to assure quiet operation. C. Fans 1.4 QUALITY ASSURANCE A. Product Options: Drawings indicate size, profiles, and dimensional requirements of rooftop replacement-air units and are based on the specific system indicated. Refer to 1. Outdoor fans shall be direct-drive propeller type, and shall discharge air horizontally. Fans shall below air through the outdoor coil. 2. Outdoor fan motors shall be totally-enclosed, single-phase motors with Class B insulation and permanently-lubricated sleeve bearings. Motor shall be protected by internal thermal overload protection. 3. Shaft shall have inherent corrosion resistance. 4. Fan blades shall be corrosion resistant and shall be statically and dynamically balanced. 5. Outdoor fan openings shall be equipped with PVC coated protection grille over fan and coil. D. Compressor B. and marked for intended use. C. Codes and Standards: 1. AGA Compliance: Shall bear the AGA label 2. ARI Compliance: 3. UL Compliance: 4. Energy Efficiency Ratio (EER) of rooftop units shall be equal to or greater than prescribed by ASHRAE 90A "Energy Conservation in New Building Design". 5. Rooftop units shall be listed by UL and have UL label as a unit. 1.5 WARRANTY: A. Special Warranty: Manufacturer's standard form in which manufacturer agrees to replace components listed below that fail in materials or workmanship within specified warranty period. 1. Warranty Period for Compressors: Manufacturer's standard, but not less than 5 years from date of Substantial Completion. 2. Retain subparagraph below for units with fuel-fired furnaces. 3. Warranty Period for Heat Exchangers: Manufacturer's standard, but not less than 5 years from date of Substantial Completion. B. Warranty on Compressor and Heat Exchanger: Provide written warranty, signed by manufacturer, agreeing to replace/repair, within warranty period, compressors and heat exchangers with inadequate and defective materials and workmanship, including leakage, breakage, improper assembly, or failure to perform as required; provided manufacturer's instructions for handling, installing, protecting, and maintaining units have been adhered to during warranty period. Replacement is limited to component replacement only, and does not include labor for removal and reinstallation. C. Warranty Period: 5 years from date of owner acceptance. PART 2 PRODUCTS 2.1 ROOFTOP UNITS 25 TONS AND LARGER: A. General: All units shall be completely factory assembled and tested, piped, internally wired, and fully charged with HFC Refrigerant. Cooling capacities shall be rated in accordance with A.R.I. Standard 360. All electrical wiring in accordance with National Electric Code. All units suitable for outdoor rooftop or ground level installation. B. Unit Casing: All exterior surfaces shall be phosphatized, zinc-coated steel with enamel finish. Screws shall be coated with zinc-plus-zinc chromate and with neoprene washers where sealing shall be required. Doors shall provide access to control components, filters, outside/return air dampers, evaporator coil, and supply and exhaust fan sections. All access doors and removable panels shall have neoprene gaskets an 1/2-inch, dual density fiber insulation. Roof assembly shall have modified lock seam joints filled with sealant. Drain hole(s) shall be provided on each side of the condenser section. Unit base shall be one-piece welded assembly with 14-gauge formed, load bearing members and overhang roof curb to facilitate water runoff. Unit lifting lugs accept chains or cables for rigging. 1. Unit casing shall have double wall construction with foam injected panels. C. Roof Curb: The curb shall be constructed of 16-gauge, zinc-clad steel. The roof curb is designed to mate with unit and provide support and complete weathertight installation when properly installed. Wood nailer strip shall be factory installed, with gasketing provided to seal supply/return air openings. Design shall allow for connection of ductwork to curb prior to setting of unit. Curb shall be 14 inches high and approved by the National Roofing Contractors Association. Roof curb ships knocked down for easy field assembly. Provide curb type and flashing per roofing manufacturer requirements. D. Electrical: All wiring shall be installed and tested in individual component assemblies, then rechecked during final factory run test. 1. Provide factory installed, internally mounted NEC and UL approved non-fused disconnect switch providing unit power shutoff with disconnect lockout protection capability. E. Refrigeration System: 1. Compressors - All units shall have two or more 3,600 rpm, hermetically sealed compressors. Compressors shall be equipped with over-temperature, over-current and high-pressure controls. Crankcase heaters and suction line accumulators shall be standard on all models. Provide compressor isolation service valves. F. Units shall also have: 1. Hot-gas bypass valve and piping on one compressor for variable air volume systems. G. Coils: 1. Refrigeration Controls - Refrigeration controls shall include condenser fan, evaporator fan, compressor contactors, and a 24-volt transformer. Each circuit of the unit shall have a separate set of refrigeration controls. Compressor safety controls are outlined in the section above. 2. Evaporator Coil - All units shall have three independent circuits. Heavy-duty aluminum fins mechanically bonded to 1/2-inch seamless copper tubing shall be standard. Factory pressure and leak tested at 300 psi. Expansion valves shall be standard. 3. Condenser Coil - Factory pressure and leak tested at 425 psi. Aluminum fin surface mechanically bonded to 3/8-inch seamless copper tubing. H. Fans: 1. Indoor Air Fan - Shall be two, double-inlet, belt-driven, forward-curved, centrifugal-type fans mounted on a common shaft with adjustable sheave drive. All fans statically and dynamically balanced and tested at the factory. Supply fan shall be run tested in the unit as part of unit run test. Unit reaches its rated rpm before the fan shaft passes through the first critical speed. Fan shaft shall be mounted on two self-aligning, permanently sealed ball bearing. 2. Condenser Fans and Motors - Shall be vertical discharge, balanced, direct-drive fans mounted in full length, bell-mouth orifices. Fan motor shall be three-phrase with permanently lubricated ball bearings and built-in thermal overload protection. Motors shall be line voltage, three phase and shall be equipped with rain shields to eliminate moisture. I. Drain Pan: 1. Standard galvanized IAQ drain pan. 1. Compressor shall be fully hermetic reciprocating or scroll type. 2. Compressor shall be equipped with oil system, operating oil charge, and motor. Internal overloads shall protect the compressor from overtemperature and overcurrent. Scroll compressors shall also have high discharge gas temperature protection if required. 3. Motor shall be NEMA rated Class F, suitable for operation in a refrigerant atmosphere. 4. Reciprocating compressors shall be equipped with crankcase heaters to minimize liquid refrigerant accumulation in compressor during shutdown and to prevent refrigerant dilution of oil. 5. Compressor assembly shall be installed on rubber vibration isolators and shall have internal spring isolation. 6. Compressors shall be single-phase or 3-phase a specified on the contract drawings. E. Outdoor Coil 1. Electric heat sections: manufacturer's standard construction electric heat coils, factory-wire for single point wiring connection. Complete with over-current and over-heat protection devices. Coil shall be constructed of aluminum fins mechanically bonded to internally enhanced, seamless copper tubes which are cleaned, dehydrated, and sealed. F. Refrigeration Components 1. Refrigerant circuit components shall include brass external liquid line service valve with service gage port connections, suction line service valve with service gage connection port, service gage port connections on compressor suction and discharge lines with Schrader-type fittings with brass caps, accumulator, pressure relief, and a full charge of refrigerant. G. Controls and Safeties 1. Operating controls and safeties shall be factory selected, assembled, and tested. The minimum control functions shall include the following: H. Controls 1. I. J. Time delay restart to prevent compressor reverse rotation on signal-phase scroll compressors. 2. Automatic restart on power failure. 3. Safety lockout if any outdoor unit safety is open. 4. A time delay control sequence provided through the fan coil board, thermostat, or controller. 5. High-pressure and liquid line low-pressure switches. 6. Automatic outdoor fan motor protection. 7. Start capacitor and relay (single phase units without scroll compressors). Safeties 1. System diagnostics. 2. Compressor motor current and temperature overload protection 3. High pressure relief. 4. Outdoor fan failure protection. Electrical Requirements 1. Unit electrical power shall be a single point connection. 2. Unit control voltage to the indoor-fan coil shall be 24 volt 3. All power and control wiring must be installed per NEC and all local building codes. 4. High and low voltage terminal block connections. K. Special Features (Field Installed) 1. Low-Ambient Kit a. 2. 3. Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 Field supplied and installed winter start control shall permit start-up for cooling operation under low-load conditions and at low-ambient temperatures by bypassing the low-pressure switch for a 3-minute delay period. Crankcase Heater (units with scroll compressors only). a. 2.3 This electronically operated shutoff valve shall close and opening response to compressor operation. The valve should be used with all long-lines applications (over 100 ft.).. Winter Start Control a. 4. Control shall regulate fan-motor cycles in response to saturated condensing pressure of the unit. The control shall be capable of maintaining a condensing temperature of 100 F +/- 10 F with outdoor temperatures to -20F. Installation of kit shall not require changing the outdoor-fan motor. Liquid Solenoid Valve a. Unit shall be shipped with a clamp-on compressor oil sump heater.] HIGH WALL UNITS A. General 1. J. K. Special Features (Field Installed) E. Verify that electrical wiring installation is in accordance with manufacturer's submittal and installation requirement of Division 26 sections. Do not proceed with equipment start-up until wiring installation is acceptable to equipment Installer. 3393 Peachtree Road NE Atlanta, GA 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. nike retail interiors exceed 10% of specified air flow capacity. F. Velocity Sensors: Multipoint array with velocity sensors in cold- and hot-deck air inlets and air outlets. The airflow sensors shall be of the cross configuration and shall have multiple pickup points, designed to average the flow across the inlet of the assembly G. Attenuator Section: Lined 22 gauge aluminum or galvanized sheet steel. 1. Indoor, direct-expansion, wall-mounted fan coil. Unit shall be complete with cooling/heating (heat pump systems only) coil, fan, fan motor, piping connectors, electrical controls, microprocessor control system, and integral temperature sensing. Unit shall be furnished with integral wall-mounting bracket and mounting hardware. B. Unit Cabinet 1. Cabinet discharge and inlet grilles shall be attractively styled, high-impact polystyrene. Cabinet shall be fully insulated for improved thermal and acoustic performance. C. Fans Exhaust Air Options: 1. VAV Powered Relief Option - Provide factory installed fully modulating exhaust fan with variable frequency drive, including relief damper section with mist eliminator and building pressurization control. Dampers shall open to relieve positive pressure within the building. Exhaust fan shall be sized for 100% of supply air CFM. L. VAV Application: 1. Variable air volume control: discharge air step controller, electric control system with dry bulb control, and 7-day programmable time clock. 2. Frequency Drive: Provide factory mounted and wired frequency drive [with bypass] and Nema rated disconnect switch. (Verify VFD can be factory mounted & wired)] M. Outside Air Options: 1. Enthalpy-Controlled Economizer - Provide dual enthalpy economizer control. Economizer shall operate through room thermostats to automatically use outdoor air for "free cooling" when outdoor air temperatures and humidity are at acceptable levels. The economizer shall include outside and return air dampers and moisture eliminators suitable for drawing up to 100 percent outside air. Return and outside air dampers shall operate by a spring return damper motor which assures closing of outside air dampers during shutdown or power interruption. Provide Powered Relief for Economizer Operation. N. Filters: 1. Provide air filters to fit in filter box, with a Maximum filter face velocity of 500 fpm, of the following type: a. Disposable Type: Provide 30% efficient disposable type air filters 2" thick, consisting of viscous coated fibers with filtering media encased in fiberboard cell sides having perforated metal grids on each side to provide media support. 1. Fan shall be tangential direct-drive blower type with air intake a t the upper front face of the unit and discharge at the bottom front. Automatic, motor-driven vertical air sweep shall be provided standard. 2. Air sweep operation shall be user selectable. Horizontal direction may be manually adjusted (using remote controller) and vertical air sweep may be manually set. K. b. D. Coil 1. Coil shall be copper tube with aluminum fins and galvanized steel tube sheets. Fins shall be bonded to the tubes by mechanical expansion. A drip pan under the coil shall have a drain connection for hose attachment to remove condensate. Condensate pan shall have internal trap and auxiliary drip pan under coil header. 2. NOTE: The 40QNB009,012 units use capillary tubes in the outdoor unit for refrigerant control, and the 40QNB018,024 units use the AccuRater piston refrigerant metering device in the indoor unit. E. Motors 1. 1. NOT USED. Provide filters with clean resistance not exceeding 0.10" w.g. at face velocity of 300 fpm, and ASHRAE weight arrestance efficiency of 70-82%, based on final operating resistance of 0.5" w.g. O. Controls: 1. BACnet Communication Board - coordinate all controls requirements with CSUSA. P. Manufacturers: 1. Subject to compliance with requirements, provide rooftop units of one of the following: a. Aaon b. Carrier Air Conditioning, Div of Carrier Corp. c. Lennox d. Trane (The) Co., Div of American Standard Inc. e. Johnson Controls f. McQuay International PART 3 EXECUTION 2. 3.1 EXAMINATION INSTALLATION Provide hard wired wall thermostat secured to wall. (remote control stats are not acceptable). b. An automatic restart after power failure at the same operating conditions as at failure. c. A timer function to provide a minimum 24-hour timer cycle for system Auto. Start/Stop. d. Temperature-sensing controls shall sense return air temperature. Indoor air high discharge temperature shutdown shall be provided. e. Indoor coil freeze protection. f. Wireless infrared remote control to enter set points and operating conditions. g. Auto Stop features shall have integral setback control. h. Automatic airsweep control to provide on or off activation of airsweep louvers. i. Dehumidification mode shall provide increased latent removal capability by modulating fan speed and set point temperature. j. Fan only operation shall provide room air circulation when no cooling is required. k. Diagnostics shall provide continuous checks of unit operation and warn of possible malfunctions. Error messages shall be displayed at the unit and at the remote controller. l. Fan speed control shall be user-selectable: high, medium, low or microprocessor automatic operation during all operating modes. 1. Unit shall have filter track with factory-supplied cleanable filters. H. Electrical Requirements 1. I. PERMIT SET HVAC SPECIFICATIONS Project # 13272 building code. See the architectural plans for coordination. J. Unit shall operate on 115 volt, 208 volt, or 230 volt, 60 Hz power supply as specified on the equipment schedule. Power and control connections shall have terminal block connections. M4.03 Operating Characteristics 1. B. D. Electrical Wiring: Install electrical devices furnished by manufacturer but not specified to be factory-mounted. Furnish copy of manufacturer's wiring diagram submittal to a. G. Filters A. General: Install rooftop units in accordance with manufacturer's installation instructions. Install units plumb and level, firmly anchored in locations indicated, and maintain manufacturer's recommended clearances. C. Support: Install and secure roof curb to roof structure, in accordance with National Roofing Contractor's Association (NRCA) installation recommendations and shop drawings. Install and secure rooftop units on curbs and coordinate roof penetrations and flashing. Controls shall consist of a microprocessor-based control system, which shall control space temperature, determine optimum fan speed, and run self diagnostics. The temperature control range shall be from 64F to 84F. The unit shall have the following functions as a minimum. m. A time delay shall prevent compressor restart in less than 3 minutes. A. Examine areas and conditions under which rooftop units are to be installed. Do not proceed with work until unsatisfactory conditions have been corrected in manner acceptable to Installer. 3.2 Motors shall be open drip-proof, permanently lubricated ball bearing with inherent overload protection. Fan motors shall be 3-speed. F. Controls The unit shall be matched with an outdoor unit. The combination of the outdoor unit and the indoor fan coil unit shall be sized as scheduled 2. The system shall have a minimum listed SEER (seasonal energy efficiency ratio) of 10.0 at ARI conditions. 3. Outdoor unit shall be rated at low decibels at ARI conditions. Refrigerant Lines 1. The 009 and 012 units shall have rotatable refrigerant lines for penetration through the wall using flare connections. All units shall have flare connections and a 90-degree suction elbow shall be provided for rear connection. Date: 02.22.2013 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 3393 Peachtree Road NE Atlanta, GA nike retail interiors ISSUED FOR CONSTRUCTION Revisions: No. Date 1 03.20.2013 Description ADD. 2 PERMIT SET ELECTRICAL LEGEND Project # 13272 E0.00 Date: 02.22.2013 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 3393 Peachtree Road NE Atlanta, GA nike retail interiors ISSUED FOR CONSTRUCTION Revisions: No. Date Description 1 03.15.2013 ADD. 1 2 03.20.2013 ADD. 2 PERMIT SET ELECTRIC SINGLE-LINE DIAGRAM Project # 13272 E4.00 Date: 02.22.2013 The General Conditions, Supplementary Conditions and Instructions to Bidders shall apply to and be part of this specification. Contractor shall comply with all applicable codes, rules and regulations. Contractor shall obtain and pay for all permits, certificates of inspection and approvals required. SCOPE OF WORK Water Piping Systems Soil, Waste, and Vent Piping Systems Plumbing Fixtures Plumbing Equipment GENERAL STANDARDS The applicable provisions of the following standards shall govern: American Society for Test Materials (ASTM); American Standards Association (ASA); Underwriters Laboratories (UL); National Fire Protection Association (NFPA); Georgia Building Code. State Plumbing Code with Georgia Ammendments The installation of all plumbing work shall conform to the applicable local plumbing codes and statutes. EXCAVATION AND BACKFILL Do all excavation and backfilling. Lay sewer and underground piping lines on 6" compacted sand. Backfill under building and all drives, roads and walks with bank-run gravel. Coordinate in field if excavation and backfilling will be required. WATER PIPING SYSTEMS Domestic cold-water piping Domestic hot-water piping Domestic recirculating water piping Trap primers for floor drains (provide shut-off valve before each trap primer) Interior Water Piping: Tube Size 2" and Smaller: Copper tube. Wall Thickness: Type L, hard-drawn temper. Fittings: Wrought-copper, solder-joints. SOIL, WASTE AND VENT PIPING SYSTEM Furnish and install a complete soil, waste and vent system for all plumbing fixtures. Floor Drains Interior Piping: All interior Soil, waste and vent shall be Cast iron, service weight ASTM A-74. No-hub cast iron pipe and fittings may be used above floor for soil, waste, and vent piping. Piping alignment shall be as indicated on the drawings using approved Y branches or eighth bends for direction changes and shall be surely supported or secured to maintain such alignment. Pitch of piping shall be uniform at a minimum of 1/8" per foot for building drains and as indicated on the drawings for sewers. Protection shall be given all footings, other structural elements during underground work adjacent to such items. Refer to structural drawings. Vent all fixtures, connect branch vents to main vent risers at least three feet and six inches above vented fixtures. Pitch vent lines back to soil or waste pipe, free of drops and sags. Cleanouts shall be full size of pipe up to 4", and 4" for larger sizes. For underground and concealed lines, provide cleanouts in accessible positions at each right angle turn and at intervals not to exceed fifty feet. In floors, install flush with finish floor with extension pipe from cleanout "Y". Water closets. Lavatories. Service sinks. Drinking Fountains. Countertop Sinks. Manufacturer: Subject to compliance with requirements, provide plumbing fixtures and trim of one of the following: Plumbing Fixtures: American Standard, U.S. Plumbing Products. Eljer Plumbingware Div., Engineered Brass Corp. Kohler Co. Crane Co. Zurn Industries, Inc. Acorn Engineering Co. Bradley Corp. Willoughby Metcraft Inc. Schier Products Plumbing Trim: American Standard, U.S. Plumbing Products. Chicago Faucet Co. Eljer Plumbingware Div., Wallace-Murray Corp. Kohler Co. Speakman Co. T & S Brass and Bronze Works, Inc. McGuire Zurn Industries, Inc. Symmons Geberit Manufacturing, Inc. Union Brass Manufacturing Company Delta Commercial Faucets Moen Commercial Faucets Flush Valves: Sloan Valve Co. Zurn Industries, Inc. Geberit Manufacturing, Inc. Delta Commercial Flush Valves Moen Commercial Flush Valves Fixture Seats: Bemis Mfg. Co. Church Olsonite Corp., Olsonite Seats. Centoco Drinking Fountains: Oasis Elkay Mfg. Co. Halsey Taylor Div., King-Seeley Thermos Co. Haws Drinking Faucet Co. Acorn Engineering Co. Service Sinks: American Standard, U.S. Plumbing Products. Eljer Plumbingware Div., Wallace-Murray Corp. Fiat Products, Unit of Mark Control Corp. Kohler Co. Stern-Williams Co., Inc. Mustee Zurn Industries, Inc. Creative Industries Stainless Steel Sinks: American Standard, U.S. Plumbing Products Elkay Manufacturing Co. Just Manufacturing Co. Moen, Division of Stanadyne/Western Bradley Corp. Acorn Engineering Co. Amtekco Industries, Inc. Fixture Carriers: Josam Mfg. Co. Smith. Wade Zurn Industries, Inc., Hydromechanics Div. Watts Drainage PLUMBING EQUIPMENT Electric water heaters Circulating pumps Elevator Pit Sump Pump Thermostatic Mixing Valve CLEANOUTS Josam, Smith, Wade, Zurn Watts, or Mifab Floor, Zurn Z-1420-2. Wall, Zurn Z-1460-9. Grade, Zurn Z-1455. EWH1 - ELECTRIC WATER HEATER FLOOR DRAINS Josam, Smith, Wade, Zurn, Watts, Mifab, Sioux Chief, or Oatey Floor drain #1 to be Zurn Z-415 with double drainage flange, weep holes, caulked outlet, 6" nickle bronze strainer. All floor drains located in rooms which have tile floors shall have square strainers. The plumbing contractor shall provide trap primers for all floor drains. Trap primer shall be equal to Mifab MR-500 trap primer valve. PIPE LABELING Provide 4 mil vinyl film pipe markers with permanent self-adhesive with directional arrow banding tape on all piping. Products shall meet ANSI A 13.1. Locate labels on all piping and at a minimum of 20 foot intervals, within one foot of all changes of direction, within one foot of all valves, and within one foot from both sides of walls and floor penetrations. WATER The water heater shall be Dura-Power Model No. DEN-30D as manufactured by A.O. Smith or an approved equal. Heater shall be rated at 4.0 KW, 480 volts, three phase and listed by Underwriters' Laboratories. Tank shall be 30 gallon capacity. All internal surfaces of the heater exposed to water shall be glass-lined with an alkaline borosilicate composition that has been fused to steel by firing at a temperature range of 1600 degrees F. Electric heating element shall be medium watt density with zinc plated copper sheath. Element shall be controlled by an individually mounted thermostat and high temperature cutoff switch. The outer jacket shall be of baked enamel finish and shall be provided with full size control compartment for performance of service and maintenance through hinged front panels and shall enclose the tank with foam insulation. Electrical junction box with heavy duty terminal block shall be provided The drain valve shall be located in the front for ease of servicing and shall be piped to the service sink below. Furnish and install Bell and Gossett Series 100, bronze circulating pump, with timer kit. Pump shall be set to run only during business hours. Manufacturers: Bell and Gossett Armstrong Peerless Grundfos Taco Aurora Pump Co. Paco ELEVATOR PIT SUMP PUMPS Manufacturers: 1. Zoeller 2. Weil Pumps 3. Liberty Pumps 4. Armstrong 5. Dayton THERMOSTATIC MIXING VALVES Thermostatic mixing valves shall be provided for all public hand washing sinks and lavatories. Mount under sink or lavatory. Set outlet temperature of thermostatic mixing valve to 110 degrees F. Point-of use thermostatic mixing valves shall be equal to Powers LM495 and shall meet the requirements of ASSE 1070. Route tempered water to hot water side of sink and lavatories. Manufacturers: Symmons Lawler Leonard Powers Bradley CATHODIC PROTECTION Provide dielectric insulation at points where copper or brass pipe comes in contact with ferrous piping, reinforcing steel or other dissimilar metal in structure. SHOCK ABSORBERS Remove shock conditions from all piping. Provide and install shock absorbers on all piping serving flush valve fixtures. VALVES Provide stops on domestic water supplies to isolate hot and cold water to each fixture, including all equipment and equipment provided by others. PLUMBING INSULATION thickness insulation. Insulate domestic hot water and hot water return piping, associated fittings and Insulate waste piping above ceilings that receive condensate with 1/2" wall thickness insulation. Insulate waste piping, supply piping, stops, and valves under handicap accessible plumbing fixtures. FLEXIBLE ELASTOMERIC INSULATION Access shall be provided to all valves. Ball Valves - 1 Inch and Smaller: 2-piece body, 600 psi CWP, 150 psi SWP, Cast Bronze body, full port, teflon seats, blowout-proof stem, adjustable packing gland, chrome plated bronze ball, with screwed ends, and vinyl-covered steel handle. Provide solder ends. Provide extended valve stems for valves used on insulated lines. Provide equal to Nibco Series 585-70-NS. Ball Valves - 1-1/4 Inch to 3 Inch: 3-piece body, 600 psi CWP, 150 psi SWP, Cast Bronze body, conventional port, teflon seats, blowout-proof stem, adjustable packing gland, chrome plated bronze ball, screwed ends, and vinyl-covered steel handle. Provide solder ends. Provide extended valve stems for valves used on insulated lines. Provide equal to Nibco Series 590-Y. Balancing Valves for Hot Water Return 1/2" to 2: All dezincification resistant brass construction, straight pattern globe, non-rising stem, two test ports, memory stop, position display, rated for 240 psi to 250 degrees F. Provide equal to Nibco Circuit Balancing Valve model T and S1710 (threaded or socket). Valve must be listed for potable water use by manufacturer. Ball-style balancing valves may be substituted with Engineer's Approval. K L H Closed-cell, sponge- or expanded-rubber materials. Comply with Manufacturers: Armstrong Armaflex II Rubatex R-180-FS Nomaco K-Flex Insulation shall be listed and labeled per ASTM E 84 for plenum installations employing slip on techniques. KOHRS LONNEMANN HEIL ENGINEERS, PSC Joints shall be sealed with Armstrong #520 or Rubatex #373 adhesive or as required by manufacturer. Pipe insulation exposed outside shall be covered with a vinyl wrap. MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM FIBERGLASS INSULATION Fiberglass piping insulation: ASTM C 547, Class 1 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 Encase pipe fittings insulation with one-piece premolded PVC fitting covers. Vapor Barrier Material: Paper-backed aluminum foil, except as otherwise indicated, strength and permeability rating equivalent to adjoining pipe insulation jacketing. Staples, Bands, Wires, and Cement: As recommended by insulation manufacturer for applications indicated. Adhesives, Sealers, and Protective Finishes: As recommended by insulation manufacturer for applications indicated. Manufacturers: Armstrong World Industries, Inc. Owens-Corning Fiberglass Corp. Keene Corp. CertainTeed. Johns Manville. INSULATION FOR HANDICAP ACCESSIBLE FIXTURES Fixtures, item or units furnished by the manufacturer with integral stops or stops specified with the fixture are considered to be properly valved off at the fixtures. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com All handicap lavatory P-trap and angle stop assemblies shall be insulated with Trap Wrap Protective Kit manufactured by ProFlo model PF202WH or equal. Abrasion resistant , anti-microbial vinyl exterior cover shall be smooth. For traps, the insulation shall have a cleanout nut cap to allow service to the trap without disassembly. For stops, the insulation shall have a lock lid that prevents tampering but allows access without removal of the insulation. Fasteners shall remain substantially out of sight. ISSUED FOR CONSTRUCTION Manufacturers: Subject to compliance with requirements: ProFlo Truebro Plumberex INTERRUPTION OF SERVICES When it is required to interrupt existing services, this contractor shall first notify the Architect that an interruption is required. It should be noted that facilities must by kept in operation as much as possible. This contractor shall advise the Architect of the length of time the service will be interrupted and shall get permission from the Architect before proceeding with the work. WARRANTY This contractor shall warrant that all work under this section shall be free of defective work, materials and parts for a period of one year after acceptance of the work and shall repair, revise, and replace, at no cost to the Owner, any such defects occurring within the warranty period. Manufacturers Nibco Milwaukee Watts Apollo Kitz Corporation PIPE JOINTS AND CONNECTION All cutting and patching of finished construction of building shall be performed by this contractor under the section of specifications covering these materials. Any minor adjustment in location of alignment of new work or to connect to existing utilities shall be performed as directed by the Architect without additional cost to the Owner. The contractor shall be responsible for damages to the grounds, walks, road, building, piping systems, electrical systems, and their equipment and contents, caused by leaks in the piping systems being installed or having been installed by him. He shall repair at his expense all damaged so caused. All repair work shall be done as directed by and in such manner as satisfactory to the Architect. Owner reserves the right to make emergency repairs as required to keep equipment in operation without voiding the contractor's guarantee bond nor relieving the contractor of his responsibilities during the bonding period. 3393 Peachtree Road NE Atlanta, GA GENERAL CP1 - CIRCULATING PUMP FOR HOT WATER RETURN nike retail interiors PLUMBING FIXTURES PLUMBING SPECIFICATIONS OIL R OIL SMART ALARM SYSTEM SILENCE TEST Revisions: DETAIL C No. Date Description 1 03.15.2013 ADD. 1 2 03.20.13 ADD. 2 SIMPLEX ALARM PANEL NEMA 4X TO BE INSTALLED WITHIN 70 FEET OF PUMP BY E.C. COVER SEPARATE CIRCUIT FOR PUMP RECOMMENDED FOR ALARM ISOLATION SECTION B-B COMPRESSION UNION CHECK VALVE HWR 1/2''HWR 3/4"CW HIGH LEVEL/OIL SENSOR EXPANSION TANK 10" 3/4'' CP1 B&G 100 CIRC PUMP BALANCING VALVE 3/4" 36" PUMP ON PUMP OFF HEAT TRAP A.O.SMITH DEN-30D 4KW P&T RELIEF PIPE TO MOP SINK NON AUTOMATIC PUMP 24" PERMIT SET SECTION A-A DRAIN VALVE 112" DISCHARGE FLANGE BOLT CIRCLE 6'-8" MINIMUM PLUMBING LEGEND, DETAILS AND SPECIFICATIONS PROVIDE AND INSTALL WALL BRACKET ELECTRIC CORD GROMMET MOP SINK 1 2" DIA PERFORATIONS THROUGHOUT PLAN A ELECTRIC WATER HEATER SHELF-MOUNTED SCALE: NONE B ELEVATOR SUMP DETAIL SCALE: NONE Project # 13272 P0.00 Date: 02.22.2013 tva architects inc. 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com CENTER OF MALL M-OB IA HA GA FA EA K L H DA KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 2-OB DISPLAY 104 STORAGE 105 VESTIBULE 103 STAIR 102 1A UP ISSUED FOR CONSTRUCTION 2A A-CBX B-CBX nike retail interiors D-CBX 2.8 OB E-CBX 3A F-CBX 3-OB G-CBX 1/2"HOT AND COLD WATER DOWN. PROVIDE AND CONNECT 1/2"HOT AND COLD WATER, 1-1/2"VENT, AND 1-1/2"WASTE TO LAVATORY. LV1 1/2" HWR 1/2" HW 2" V 2" CW 1/2" HWR 4" S 1-1/2"DISCHARGE FROM ELEVATOR SUMP PUMP. ROUTE PIPING DOWN INSIDE WALL CAVITY AND DISCHARGE INDIRECTLY TO FLOOR DRAIN. PROVIDE AIR GAP. PROVIDE SUMP PUMP OIL ALARM IN JANITORS CLOSET. 3/4" CW 2" V 1 1/2" S 1 4" S REF. 1 1/4" CW 1 1/2" CW 1 1/2" CW JANITOR 110 ROUTE SUMP PUMP DISCHARGE LOW IN SHAFT. COORDINATE WITH ALL ELEVATOR EQUIPMENT IN FIELD. 1-1/2"SUMP PUMP DISCHARGE DOWN. UNISEX 111 ELEVATOR 106 ESP1 1/2" HW 1/2" CW WC1 LV1 4A 4" S 2" V 1 1/2" V 1 1/2" S 1 1/2" S 1"COLD WATER DOWN. PROVIDE AND CONNECT 1"COLD WATER, 2"VENT, AND 4"SANITARY TO WATER CLOSET. 1 1/2" S 1/2"HOT AND COLD WATER DOWN. PROVIDE AND CONNECT 1/2"HOT AND COLD WATER, 1-1/2"VENT, AND 1-1/2"WASTE TO LAVATORY. C.O. STOCK 112 Revisions: 3.6 OB ALL DASHED SANITARY PIPING SHALL BE BELOW FLOOR. C.O. SK1 3/4"COLD WATER AND 1/2"HOT WATER DOWN. PROVIDE AND CONNECT 1/2"HOT AND COLD WATER, 1-1/2"VENT, AND 1-1/2"WASTE TO BREAK ROOM SINK. EXTEND 1/2"COLD WATER PIPING TO OFCI WATER COOLER. ROUTE PIPING IN FURRED OUT WALL. KEEP PIPING OUT OF DEMISING WALL. 3/4" CW 1/2" HW CP1 1/2" HW 1 2" S 3"FD#1 1/2" HWR 2"COLD WATER AND 2"VENT UP TO FLOOR ABOVE. ELEV. LOBBY 107 1 1/2" S UNISEX 109 4" S PROVIDE AND CONNECT MS1 3/4"HOT AND COLD WATER TO WATER HEATER. MOUNT WATER HEATER A MINIMUM OF 6'8" ABOVE FINISHED FLOOR. EWH1 1/2"HOT AND COLD WATER DOWN. PROVIDE AND CONNECT 1/2"HOT AND COLD WATER, 1-1/2"VENT, AND 3"WASTE TO MOP SINK. DF1 4" S STOCK 118 WC1 2" CW FITTING ROOMS 117 VESTIBULE 108 1 1/2" V 1/2" CW 1/2" HW 1"COLD WATER DOWN. PROVIDE AND CONNECT 1"COLD WATER, 2"VENT, AND 4"SANITARY TO WATER CLOSET. 1/2"COLD WATER DOWN. PROVIDE AND CONNECT 1/2"COLD WATER, 1-1/2"VENT, AND 1-1/2"WASTE TO ELECTRIC WATER COOLER. 3393 Peachtree Road NE Atlanta, GA C-CBX No. Date Description 1 03.20.2013 ADD. 2 UP DN BREAK ROOM 116 CONNECT NEW 4"SANITARY PIPING TO EXISTING SANITARY STACK AT THIS LOCATION. VERIFY EXACT SIZE AND LOCATION IN FIELD. CONTRACTOR SHALL COORDINATE ACCESS TO BASEMENT WITH THE LANDLORD FOR ALL SANITARY WORK. COORDINATE EXACT ROUTING OF SANITARY PIPING/PIPING BELOW LEVEL 1 WITH WALL LAYOUT/CEILING LAYOUT BELOW. 5A 4-OB C:\REVIT AJM\13272 - Nike Lenox\13272-2012-Plumbing-Niketown_Lenox.rvt 3/20/2013 11:00:06 AM EXISTING 4"SANITARY STACK IN BASEMENT CEILING. COORDINATE TIE-IN WITH LANDLORD. PERMIT SET LEVEL 01 PLUMBING PLAN L-OB 1 LEVEL 01 - PLUMBING PLAN 3/16" = 1'-0" H-OB E-OB B-OB Project # 13272 P2.01 Date: 02.22.2013 CENTER OF MALL M-OB IA HA GA FA EA tva architects inc. DA 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com K L H 2-OB 1A KOHRS LONNEMANN HEIL ENGINEERS, PSC MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 DN 2A A-CBX ISSUED FOR CONSTRUCTION B-CBX C-CBX D-CBX 2.8 OB E-CBX 3A F-CBX nike retail interiors 2"COLD WATER AND 2"VENT DOWN TO FLOOR BELOW. ELEVATOR 202 1 4A TELE/DATA 210 3393 Peachtree Road NE Atlanta, GA 3-OB G-CBX 2" CW 2" V 3.6 OB STAIR 203 Revisions: No. Date Description 1 03.20.2013 ADD. 2 2" V 2" CW DN 5A 4-OB CONNECT NEW 2"VENT PIPING TO EXISTING VENT THROUGH ROOF. COORDINATE EXACT SIZE AND LOCATION IN FIELD. C:\REVIT AJM\13272 - Nike Lenox\13272-2012-Plumbing-Niketown_Lenox.rvt 3/20/2013 10:00:32 AM OFFICE 206 OFFICE 205 CONNECT NEW 2" COLD WATER PIPING TO EXISTING 21/2"DOMESTIC COLD WATER PIPING. VERIFY EXACT SIZE AND LOCATION IN FIELD. PERMIT SET LEVEL 02 PLUMBING PLAN Project # 13272 6A P2.02 L-OB 1 LEVEL 02 - PLUMBING PLAN 3/16" = 1'-0" H-OB E-OB B-OB Date: 02.22.2013 15402 - FIRE PROTECTION DESIGN CRITERIA A. GENERAL 1. Sprinkler head arrangement shall be in conjunction with architectural finishes and provide allowance for partitions, columns, light fixtures, air diffusers, etc. SECTION 15400 - FIRE PROTECTION SYSTEMS 2. Sprinkler Shop Drawings shall not be considered final until all requirements of GRC, SPG, and all Local and State Building Codes having authority have been met, and the approval of each has been tendered. 1 15401 - GENERAL REQUIREMENTS A GENERAL REQUIREMENTS 1. Simon Property Group requires all tenants to use simplex Grinnell for all sprinkler work. At time of bidding, tenant or tenant general contractor shall contact Simplex Grinnell's National Accounts Representative to obtain direction for pricing and scheduling at 800-299-4377 Option #1, ext. 8488 2. Regional plan submissions for Simon Tenant Improvement Projects shall be made to the following Global Risk Consultants (GRC) offices: States: CT, DE,MA,MD,ME,NH,NJ,NY,PA,RI,VT Attn: Peter Rullo / Simon Tenant Plan Review Global Risk Consultants 100 Walnut Avenue, 5th Floor Clark, NJ 07066 (732) 827-4454 [email protected] States:AR,CO,KS,LA,MO,NE,NM,OK,TX,Puerto Rico,IA,IL,IN,MI,MN,ND,OH,SD,WI,Canada Attn: Michelle Czarnecki / Simon Tenant Plan Review Global Risk Consultants 6122 King's Way Saugatuck, MI 49453 (269) 857-8198 [email protected] States: AL,DC,FL,GA,KY,MS,NC,OR, SC, TN,VA Attn: Lori Meyer / Simon Tenant Plan Review Global Risk Consultants 1003 Regency Manor Drive Ballwin, MO 63011 (636) 891-9052 [email protected] States: AK,AZ,CA,HI,ID,MT,NV,UT,WA,WY Attn: John Boureston / Simon Tenant Plan Review Global Risk Consultants 56 Companion Way Pacific Grove, CA 93950 (831)324-4401 [email protected] 3. The sprinkler system shall be a wet pipe system serving all areas of the retail space. Portions of the space that are unheated or exposed to freezing temperatures shall be provided with an automatic dry pipe type system complying with FM Global engineering guidelines and NFPA-13. 4. Piping shall be fastened to the structural system of the building and concealed in areas having a suspended ceiling. Install and/or upgrade seismic sway bracing on existing systems where required for earthquake zones per local codes and FM Global engineering guidelines. Seismic bracing for fire systems must be designed and installed following FM Global Data Sheet 2-0. 5. Drain piping is required at low points of piping systems. Drain down locations shall be extended to locations that are accessible. B. FIRE PROTECTION FOR EXISTING TENANT SPRINKLER SYSTEMS 1. Whenever an existing sprinkler system is being renovated, the integrity and reliability of the existing system must be maintained. Original sprinkler shop drawings shall be acquired through the Mall Manager/Project Manager. If these drawings are not available, field verification will be required. If the sprinkler contractor discovers a discrepancy from the original sprinkler shop drawings and actual field conditions, he shall note the discrepancy on his renovated shop drawings. 2. The hydraulic design criteria as a minimum shall match the hydraulic criteria originally intended for the facility. At no time shall the hydraulic criteria be less than Ordinary Hazard Group 2 occupancy as defined by NFPA-13. The latest site water flow data to be used for hydraulic calculations shall be obtained from Global Risk Consultants or Mall Management. 3. Existing pipe schedule sprinkler systems are required to be calculated at the FM Global density of 0.15 gpm per sq. ft. over the most hydraulically remote 2500 sq. ft. 4. FM Approved materials for Ordinary Hazard Group 2 occupancy must be used, including but not limited to sprinkler piping, hangers, sprinkler heads, etc. Seismic bracing may be UL Listed. 5. Sprinkler head spacing requirements for Ordinary Hazard Group 2 occupancy shall be in strict compliance with the sprinkler head listings and approval. 6. NFPA-13 and FM Global Data Sheets 2-0 latest editions shall be the minimum design requirements along with any state and local requirements. 7. A minimum of (4) sets of shop drawings along with hydraulic calculations shall be submitted to Global Risk Consultants for approval.Hydraulic calculations shall be submitted for all tenant sprinkler system work regardless of the scope . Plans shall be submitted to the local authorities having of work involved jurisdiction for approval. Installation/renovation of sprinkler system shall not begin until all approvals have been received. 8. 4 sets of material brochures shall also be submitted to GRC for review. Brochures shall include new sprinklers heads, pipe, flexible drops,valves etc. Plans shall indicate the type of piping being utilized with the gauge indicated. 9. Occupancy detail must be submitted and shall include, but not be limited to, stored material classification per NFPA 13, storage height, storage arrangement (shelves, racks, mobile storage units), processes present, etc. SPRINKLER LEGEND SYMBOL 2. Existing sprinkler systems shall be shut down and "red" tagged in strict accordance with Simon Property Group Impairment Procedures. Under no circumstances should a sprinkler system be left out of operation overnight without an appropriate "fire watch" in place. DESCRIPTION N N N 3. Minimum and maximum sprinkler head operating pressures shall be consistent with their UL Listing/FM Approval. 3. All fire protection systems shall be tested as required by local authorities and Global Risk Consultants before any systems are concealed. 4. Design calculations for inside pipe should use C=100 for dry and pre-action systems, and C=120 for wet or deluge systems. 4. Contractor shall conduct hydrostatic tests in compliance with FM Global Data Sheet 2-0 and NFPA-13 (two hours at 200 psi or 50 psi over normal system pressure minimum). Piping subject to freezing during test period shall be tested with compressed air. 5. Minimum and maximum sprinkler spacing shall be in accordance with their UL Listing/FM Approval. 6. FM Global required minimum density for Sales/Retail/Storage spaces will be 0.15 gpm per sq. ft. over the most hydraulically remote 2500 sq. ft., using ½" or 17/32" orifice, 165 degree F. rated heads. If the local AHJ requires an NFPA-13 design density, 0.18 gpm per sq.ft. over the most hydraulically remote 2500 sq. ft. shall be used unless specific approval is given otherwise for special occupancies. The most remote area should have the dimensions parallel to the branch line of at least 1.4 times the square-root of the area per FM Global Data Sheet 2-0. Quick-response (QR) sprinklers do not qualify for a design area reduction per FM Global Data Sheet 3-26. The density design should conform to the most stringent of either FM Global Data Sheet 3-26 or NFPA-13, Ordinary Group 2 occupancy. NEW CONCEALED WHITE PLATE SPRINKLER HEAD tva architects inc. NEW BRASS UPRIGHT SPRINKLER HEAD 920 sw sixth avenue | suite 1500 portland, oregon 97204 phone: 503 220 0668 www.tvaarchitects.com NEW SIDEWALL SPRINKLER HEAD N NEW RECESSED PENDENT SPRINKLER HEAD K L H GENERAL FIRE PROTECTION NOTES 5. Certificates of approval of installation shall be obtained from the Authority having Jurisdiction and forwarded to SPG. A. RENOVATED AREAS SHALL BE 100% SPRINKLERED. B. COORDINATE CLOSELY WITH OTHER TRADES. REFER TO ARCHITECTURAL DRAWINGS FOR CEILING TYPES. C. ALL SPRINKLER WORK SHALL BE INSTALLED PER NFPA 13, AND BUILDING CODE REQUIREMENTS. D. MAKE PROVISIONS FOR DRAINING AND PROVIDE INSPECTOR TESTS AS REQUIRED. ALL DRAIN PIPING SHALL BE PIPED TO OUTSIDE OR INDIRECTLY TO SINK OR FLOOR DRAIN. E. ALL REQUIRED OFFSETS IN PIPING ARE NOT SHOWN. CONTRACTORR IS TO COORDINATE EXACT LOCATION OF PIPING AND HEADS WITH REFLECTED CEILING PLANS, MECHANICAL, ELECTRICAL, AND STRUCTURAL DRAWINGS. F. ALL PIPE AND FITTINGS SHALL MATCH LOCAL FIRE DEPARTMENT THREADS. G. ALL SPRINKLER HEADS SHALL BE LOCATED IN CENTER OF CEILING TILE IN AT LEAST ONE DIRECTION. H. SPRINKLER CONTRACTOR SHALL BE RESPONSIBLE FOR ALL CUTTING AND PATCHING FOR SPRINKLER WORK IN ALL AREAS OF BUILDING. REFER TO SPECIFICATIONS. I. WHEN MODIFYING EXISTING SPRINKLER SYSTEMS, SPRINKLER CONTRACTOR SHALL MAINTAIN THE INTEGRITY OF THE EXISTING SPRINKLER ZONES. COORDINATE WITH NEW FIRE RATING PLANS IF APPLICABLE. J. FIRE PROTECTION CONTRACTOR IS REQUIRED TO RAISE/REWORK ALL EXISTING PIPING AS REQUIRED TO ACCOMMODATE NEW CEILINGS AND HIGHER CEILING HEIGHTS AS APPLICABLE. K. PIPING TO BE HELD AS TIGHT TO STRUCTURE AS POSSIBLE IN EXPOSED AREAS. L. SPRINKLER SYSTEM MUST BE FULLY CHARGED AND OPERATIONAL WHENEVER CONTRACTOR IS NOT ON SITE. 6. After tests are conducted and any repairs completed; completely flush the piping systems with water until discharge shows no discoloration. Upon return to service, a main drain test shall be conducted to verify the control valve is fully open. 7. Stockroom/storage areas over 200 sq. ft. must be protected for the maximum storage height and configuration (bin-box/gondola/shelf or rack) per FM Global Data Sheet 8-9. When storage exceeds 10 feet in height, the Regional GRC plan reviewer shall be consulted for appropriate design densities. Classify the commodities in tenant spaces as "Cartoned Expanded & Unexpanded Plastics" for sprinkler design purposes. Sprinkler head spacing shall not exceed 100 sq. ft. in storage areas unless approved for extended coverage (i.e., EC-25). 1 8. Big Box Stores require unique sprinkler system designs to meet the requirements of FM Global Data Sheet 8-9 and NFPA-13, Chapter 12. Contact Bill Cary with Global Risk Consultants for specific design requirements based upon the proposed display / storage configuration and roof deck height. MECHANICAL/ELECTRICAL ENGINEERS WWW.KLHENGRS.COM 1538 ALEXANDRIA PIKE, STE. 11 FT. THOMAS, KENTUCKY 41075 800-354-9783 859-442-8050 ISSUED FOR CONSTRUCTION B. Tenant Display Fixtures, Rack/Shelving/Storage Unit Requirements 1. Tenant display fixtures in the retail space and rack/shelving/storage units in the stockroom must be designed to provide adequate clearance for the automatic (fire) sprinkler system. No displays or storage should exceed 12 ft. and ceilings must be installed to provide at least 18 in. of clearance between the top of storage and sprinkler deflectors. 2. Tenant displays or storage higher than 12 ft. are classified as "high piled storage", which requires high hazard automatic (fire) sprinkler protection designed per FM Global Loss Prevention Data Sheet 8-9 and NFPA-13-Chapter 12 for the storage of "Group A Plastic" commodities. High piled storage also requires at least 36 in. of clearance between the top of storage and sprinkler deflectors. 3. Tenant mobile (compact) storage systems should be constructed of wire mesh shelves. However, if constructed with solid shelves (steel, wood), the units must be equipped with 3 in. spacers to provide flue spaces at 4 ft. to 5 ft. maximum intervals. PIPE TO NEW SPRINKLER LOCATION NEW 90 NEW 90 NEW DROP NEW RISE FROM OUTLET 4. Tenants Architect/General Contractor must provide the following information to the Sprinkler Contractor regarding stock/storage area: NEW RC Type of storage units (Details of storage unit) Type of shelving (wire mesh, solid, steel, wood, etc.) Type of commodities (plastics, aerosol's, clothing, etc.) Elevation of highest shelf 5. Tenant shall be solely responsible for the display, installation and use of any display or storage system within the Premises in compliance with applicable fire codes and the requirements of any insurance rating bureaus. If anything done, omitted to be done or suffered to be done by Tenant in, upon or about the Premises in regard to such display or storage systems shall result in a fire code violation and Tenant fails to take corrective action and/or pay the associated fine, regardless of whether assessed against Tenant or Landlord, within the prescribed time period, then Tenant shall be liable for all costs and expenses resulting from such violation and Landlord shall have the right to correct any such condition at Tenant's expense. NEW CEILING NEW CONCEALED PENDENT SPRINKLER ARMOVER DETAIL - CONCEALED PLATE 211313.00-04 SCALE: NONE 15403 - SPRINKLER EQUIPMENT A. GENERAL 1. Only sprinkler equipment bearing the FM Global Approval mark shall be installed. Provide equipment as manufactured by: Automatic Sprinkler, Tyco, Reliable, Viking Gem or equal. B. SPRINKLER HEADS 1. Sprinkler heads shall be glass bulb type of a configuration as required for each particular location. All heads on concealed piping shall be chrome plated with chrome plated escutcheon plates. Operating temperature shall be as required for the type of occupancy. 2. Sprinkler heads in janitor's closets, mechanical rooms, electrical rooms and those mounted less than 8 feet above finished floor shall be protected with a wire cage type guard. Revisions: NEW UPRIGHT SPRINKLER NEW 1" SPRIG NEW 1 x 1/ " 2 No. Date Description 1 03.20.2013 ADD. 2 RC C. SPRINKLER PIPING 1. Aboveground piping shall be FM Approved Schedule 10 or 40 black steel. Schedule 10 piping shall be joined with FM Approved roll-grooved fittings, not threaded or plain-end. Fittings shall be cast iron or steel approved for a minimum of 175 psi working pressure. Dry systems shall have FM Approved galvanized piping and fittings for corrosion resistance. 2. Threadable "lightwall" (XL) and "thinwall" pipe may not be utilized under any circumstances. 3. Hangers shall be FM Approved, and adaptable to various types of construction. Hangers shall be supported from building structure and structural steel headers shall be installed for supporting crossmain hangers where main is not directly below structural member. Roof deck hangers are prohibited. All hangers shall comply with FM Global engineering guidelines. NEW 1" TEE BRANCHLINE OR MAIN PERMIT SET 4. Wall plates shall be provided on exposed piping where pipe passes through walls, partitions, ceilings, etc. and secured by setscrews. D. VALVES 1. All valves and fittings shall be FM Approved and rated 175 lb. minimum. D:\13272 - 12 - Nike Lenox\13272-2012-Plumbing-Niketown_Lenox.rvt 3/20/2013 1:55:17 PM KOHRS LONNEMANN HEIL ENGINEERS, PSC 3393 Peachtree Road NE Atlanta, GA SECTION DESCRIPTION 15401 GENERAL REQUIREMENTS 15402 FIRE PROTECTION DESIGN CRITERIA 15403 SPRINKLER EQUIPMENT 15404 SYSTEM ACTIVATION, TESTING AND CERTIFICATION 15404 - SYSTEM ACTIVATION, TESTING AND CERTIFICATION 1. Sprinkler contractor shall install and activate the entire sprinkler system prior to the Certificate of Occupancy. nike retail interiors SECTION 15400 -TENANT FIRE PROTECTION SYSTEMS UPRIGHT SPRINKLER DETAIL 211313.00-02 SCALE: NONE FIRE PROTECTION LEGEND,NOTES, DETAILS, AND SPECIFICATIONS Project # 13272 F0.00 Date: 02.22.2013