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TECHNICAL INSTALLATION MANUAL CHILLERS REVERSIBLE HEAT PUMPS CONDENSING UNIT • OUTDOOR UNIT • HIGH EFFICIENCY • PRODUCTION OF HOT WATER UP TO 50 ° C ANL-ANLH 020-200 UK IANLTZ.1108.6755514_05 replace 6755514_04 UK ANL-ANLH 020-200 Dear Customer, Thank you for choosing an AERMEC product. This product is the result of many years of experience and in-depth engineering research, and it is built using top quality materials and advanced technologies. In addition, the CE mark guarantees that our appliances fully comply with the requirements of the European Machinery Directive in terms of safety. We constantly monitor the quality level of our products, and as a result they are synonymous with Safety, Quality, and Reliability. Product data may be subject to modifications deemed necessary for improving the product without the obligation to give prior notice. Thank you again. AERMEC S.p.A AERMEC S.p.A. reserves the right at any moment to make any modifications considered necessary to improve our products and is not obliged to add these modifications to machines that have already been fabricated, delivered or are under construction. 2 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 1. 2. 3. 4. 4.1. 4.2. 4.4. 4.3. 4.5. 4.6. 4.7. 4.8. 4.9. 4.10. 5. 6. 7. 8. 8.1. 8.2. 8.3. 9. 10. 11. 11.1. 11.2. 11.3. 11.4. 12. 13. 14. 15. 15.1. 15.2. 16. 17. 18. 20. 20.1. 20.2. 21. 22. 22.1. 22.2. 22.3. 22.4. 22.5. 22.6. 22.7. 22.8. 22.9. 22.10. 22.11. 22.12. 22.13. 23. 23.1. 23.2. 23.3. 23.4. Descrip on and choce of unit........................................................6 Configurator .................................................................................6 Components and configura ons....................................................7 Principle of opera on diagrams cooling ........................................8 Prodac on cold water to the system ................................................ 8 Prodac on col water to the system and hot water to desuperheater 8 Prodac on hot water to the system ................................................. 9 Prodac on hot water to the system | DHW ..................................... 9 Cooling circuit ................................................................................. 10 Frame and fans ............................................................................... 10 Hydraulic circuit standard ............................................................... 10 Water features ................................................................................ 11 Control and safety components ...................................................... 11 Electric board, control and power................................................... 11 Descrip on of components .........................................................10 Accessories .................................................................................12 Technical data .............................................................................13 Opera on limit ...........................................................................18 Cooling mode .................................................................................. 18 Cooling mode for version "C".......................................................... 18 Hea ng mode ................................................................................. 18 Performance and absorp on that differ from the nominal standard cooling mode ...............................................................19 Performance and absorp on that differ from the nominal hea ng mode..............................................................................25 Pressure drops and useful sta c pressures ..................................31 Evaporator | piping ......................................................................... 31 Filtre ................................................................................................ 31 Useful sta c pressures .................................................................... 31 How to interpret glycol curves ........................................................ 32 Ethylene glycol solu ons .............................................................32 Expansion vessel calibra on........................................................33 Recommended minimum water content .....................................33 Desuperheater ............................................................................34 Correc on factors ........................................................................... 34 Pressure drops ................................................................................ 34 Refrigerant lines..........................................................................35 Sound data .................................................................................36 Parameter calibra on of safety and control.................................37 General warnings for the installer ...............................................38 Preserva on of the documenta on ................................................ 38 Warnings regarding safety and installa on standards ................... 38 Selec on and place of installa on ...............................................39 Dimensions .................................................................................40 ANL 020 ÷ 025 VERSION °|P|H|HP................................................. 40 ANL 030 ÷ 040 VERSION °|P|H|HP................................................. 41 ANL 050 ÷ 090 VERSION °|P|H|HP................................................. 42 ANL 100 ÷ 200 VERSIONE °|P|A|N|Q / H|HP|HA|HN|HQ ............ 43 ANL 020 ÷ 025 VERSION °A|HA ...................................................... 44 ANL 030 ÷ 040 VERSION °A|HA....................................................... 45 ANL 050 ÷ 090 VERSION °A|°Q |HA |HQ ........................................ 46 ANL 020 ÷ 025 VERSION C ............................................................... 47 ANL 040 ÷ 050 VERSION C ............................................................... 48 ANL 070 ÷ 090 VERSION C ............................................................... 49 ANL 100 ÷ 200 VERSION C ............................................................... 50 ANL 050 ÷ 090 version D|DA / HD|HDA ........................................ 51 ANL 100 ÷ 200 version D|DA / HD|HDA ........................................ 52 Hydraulic circuits of principle.......................................................... 53 Hydraulic circuit for internal and external ANL “°” | "H" (standard)53 Hydraulic circuit for internal and external ANL “°P|°N” / "HP|HN"54 Hydraulic circuit for internal and external ANL “°A|°Q” / "HA|HQ"55 Example plant for the produc on of DHW ANL50H ° with accessory VMF ACS ................................................................ 56 Aermec cod. 6755512_05 6.2011 24. 25. 26. 27. 27.1. 27.2. 27.3. 28. 28.1. 28.2. 28.3. 28.4. 28.5. 28.6. 29. 29.1. 29.2. 29.3. 29.4. 29.5. 29.6. 30. 31. 31.1. 31.2. Electric connec ons ....................................................................57 Electrical data .............................................................................58 Electrical connec on of power to the power supply ....................58 Strat-up ......................................................................................59 Preliminary opera ons to be made without tension ...................... 59 The following opera ons are performed when the unit is powered.59 Machine commissioning ................................................................. 59 Func oning features ...................................................................60 Set point in cooling mode ............................................................... 60 Set point in riscaldamento .............................................................. 60 Compressor start-up delay .............................................................. 60 Circula on pump............................................................................. 60 An -freeze alarm ............................................................................ 60 Water flow rate alarm ..................................................................... 60 Maintenance...............................................................................61 Hydraulic circuit .............................................................................. 61 Emptying the system....................................................................... 61 Electrical circuit ............................................................................... 61 Cooling circuit ................................................................................. 61 Mechanical ...................................................................................... 61 Extraordinary maintenance............................................................. 61 Disposal ......................................................................................61 List of controls for the guided procedure .....................................62 How to modify a parameter in the user menu: .............................. 62 How to modify a parameter in the installer menu:......................... 62 3 UK ANL-ANLH 020-200 ANL ANLH NUMERO DI SERIE DICHIARAZIONE DI CONFORMITÀ CE We, the undersigned, hereby declare under our own responsibility that the assembly in question, defined as follows: NAME ANL - ANLH TYPE WATER/AIR chiller, heat pump MODEL To which this declaration refers, complies with the following harmonised standards: CEI EN 60335-2-40 Safety standard regarding electrical heat pumps, air conditioners and dehumidifiers CEI EN 61000-6-1 CEI EN 61000-6-3 Immunity and electromagnetic emissions for residential environments CEI EN 61000-6-2 CEI EN 61000-6-4 Immunity and electromagnetic emissions for industrial environments EN378 Refrigerating systems and heat pumps - Safety and environmental requirements EN12735 Copper and copper alloys - Seamless, round copper tubes for air conditioning and refrigeration UNI 12735 Seamless, round copper tubes for air conditioning and refrigeration UNI 14276 Pressure equipment for cooling systems and heat pumps Therefore complying with the essential requisites of the following Directives: - LVD Directive: 2006/95/CE - Electromagnetic compatibility Directive 2004/108/CE - Machinery Directive 2006/42/CE - PED Directive regarding pressurised devices 97/23/CE The product, in agreement with Directive 97/23/CE, satisfies the Total quality Guarantee procedure (form H) with certificate n.06/270-QT3664 Rev.5 issued by the notified body n.1131 CEC via Pisacane 46 Legnano (MI) - Italy The person authorised to constitute the technical file is: Massimiliano Sfragara - 37040 Bevilacqua (VR) Italy - via Roma,996 Bevilacqua 4 20/06/2010 Aermec cod. 6755512_05 6.2011 ANL-ANLH 020-200 ANLC NUMERO DI SERIE DICHIARAZIONE DI CONFORMITÀ CE We, the undersigned, hereby declare under our own responsibility that the assembly in question, defined as follows: NOME ANL C TIPO MOTORCONDENSING CHILLER MODELLO To which this declaration refers, complies with the following harmonised standards: CEI EN 60335-2-40 Safety standard regarding electrical heat pumps, air conditioners and dehumidifiers CEI EN 61000-6-1 CEI EN 61000-6-3 Immunity and electromagnetic emissions for industrial environments CEI EN 61000-6-2 CEI EN 61000-6-4 Immunità ed emissione elettromagnetica per l’ambiente industriale EN378 Refrigerating systems and heat pumps - Safety and environmental requirements EN12735 Copper and copper alloys - Seamless, round copper tubes for air conditioning and refrigeration UNI 12735 Seamless, round copper tubes for air condi oning and refrigera on UNI 14276 Pressure equipment for cooling systems and heat pumps Therefore complying with the essential requisites of the following Directives: - LVD Directive: 2006/95/CE - Electromagnetic compatibility Directive 2004/108/CE - PED Directive regarding pressurised devices 97/23/CE The product, in agreement with Directive 97/23/CE, satisfies the Total quality Guarantee procedure (form H) with certificate n.06/270-QT3664 Rev.5 issued by the notified body n.1131 CEC via Pisacane 46 Legnano (MI) - Italy The person authorised to constitute the technical file is: Massimiliano Sfragara - 37040 Bevilacqua (VR) Italy - via Roma,996 DECLARATION OF INCORPORATION We, the undersigned, declare under our own responsibility, in compliance with paragraph 2, art. 4 of the Machinery Directive 98/37/CE, that start-up is prohibited before the machine in which it has been incorporated has been declared conform with the provisions of the Machinery Directive and/or all applicable Directives. Bevilacqua 20/06/2010 Marketing manager Signature Aermec cod. 6755512_05 6.2011 5 UK ANL-ANLH 020-200 1. TECHNICAL SECTION Standards and Directives respected on designing and constructing the unit: SAFETY 1. Machinery Directive 2006/42/CE 2. Low Voltage Directive LVD 2006/95/CE 3. Electromagnetic compatibility Directive EMC 2004/108/CE 4. Pressure Equipment Directive PED 97/23/CE, EN 378, 5. UNI12735, UNI14276 INSTALLATION SECTION ELECTRIC PART 1. CEI EN 60335 2 40, 2. CEI EN 61000 6 1/2/3/4 ACUSTIC PART 1. ISO DIS 9614/2 intensimetric method PROTECTION RATING IP24 CERTIFICATIONS EUROVENT USER SECTION REFRIGERANT GAS Questa unità contiene gas floururali a effetto serra coperti dal protocollo di Kyoto. Le operazioni di manutenzione e smaltimento devono essere eseguite solo da personale qualificato, nel rispetto delle norme vigenti DESCRIPTION AND CHOCE OF UNIT Chillers and heat pumps for OUTDOOR condensed in the air with R410A Series ANL have been designed and manufactured to satisfy heating and cooling needs and the production of domestic hot water (DHW) in medium to small commercial or residential buildings. These units, have extremely silent functioning and are highly efficient and reliable, thanks to the use of exchangers with a large exchange surface and low-noise high-efficiency scroll compressors 2. CONFIGURATOR DESCRIPTION ANL 4,5,6 SIZE 020 - 025 - 030 - 040 - 050 - 070 - 080 - 090 - 100 - 150 - 200 7 MODEL ° Cooling H Heat pumps 8 ° P N A Q VERSION Standard With pump With increased pump (solo ANL 100 - 150 - 200) With storage tank Storake tank | increased pump (only ANL 50 - 70 - 80 - 90 - 100 - 150 - 200) HEAT RECOVERY ° Without recovery D With desuperheater 10 ° R S V 6 The versions can be in different set-ups at the same time in order to satisfy a wide range of plant engineering solutions: 1. "°" STANDARD 2. "P" PUMPS 3. "N" INCREASED PUM 4. "A" PUMP |STORAGE TANK 5. "Q" INCREASED PUM|STORAGE TANK 6. "D" DESUPERHEATER Campo 1,2,3 9 Possibility of production of D.H.W. (DCPX | VMF-ACS | MODU-485A required) The DESUPERHEATER is not possible with: • Version "C" • With the thermostatic valve Y They are available in the following versions: 1. ANL "°" Standard 2. ANL "H" Heat pumps 3. ANL "C" Moto condensing unit COIL Aluminium Copper Tinned copper Painted aluminium 11 FIELD OF USE ° Standard (temperature of water produced up to 4°C) Z Low temperature (temperature of water produced: 4°C up to 0°C) Y Low temperature(temperature of water produced: 0°C up to -6°C) 12 EVAPORATOR ° Standard (temperature of water produced up to 4°C) C Motor condenser 13 POWER SUPPLY ° 400V/3N/50Hz M 230V/1/50Hz (only ANL 020 - 025 - 030 - 040) Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 COMPONENTS AND CONFIGURATIONS SEZIONE TECNICA Components C with D std std std std std std No std No No No No No std No std No std std No Model ° std std std No No No No std No No H std std No std std std No std No No Hydraulic circuit Water filter Pressure switch Safety valve Air vent Version "°" 020 Std Std no no 025 Std Std no no 030 Std std no no 040 Std std no no 050 Std std no no 070 Std std no no 080 Std std no no 090 Std std no no 100 Std std no no 150 Std std no no 200 Std std no no Hydraulic circuit Water filter Pressure switch Flow switch Safety valve Air vent Pump Pump incresed Expansion tank Version "P/N" 020 std std no std std vers. P No std 025 std std no std std vers. P no std 030 std std no std std vers. P no std 040 std std no std std vers. P no std 050 std std no std std vers. P no std 070 std std no std std vers. P no std 080 std std no std std vers. P no std 090 std std no std std vers. P no std 100 std std no std std vers. P vers. N std 150 std std no std std vers. P vers. N std 200 std std no std std vers. P vers. N std Hydraulic circuit Water filter Pressure switch Flow switch Safety valve Air vent Pump (P) Pump incresed Expansion tank Storge tank Version "A/Q" 020 std no std std std vers.A No std std 025 std no std std std vers.A No std std 030 std no std std std vers.A No std std 040 std no std std std vers.A No std std 050 std std no std std vers.A vers.Q std std 070 std std no std std vers.A vers.Q std std 080 std std no std std vers.A vers.Q std std 090 std std no std std vers.A vers.Q std std 100 std std no std std vers.A vers.Q std std 150 std std no std std vers.A vers.Q std std 200 std std no std std vers.A vers.Q std std Hydraulic circuit Version "° with D" Water filter Pressure switch Flow switch Plate exchanger (desuperheater) 020 N.D. N.D. N.D. N.D. 025 N.D. N.D. N.D. N.D. 070 N.D. N.D. N.D. N.D. 080 N.D. N.D. N.D. N.D. 090 N.D. N.D. N.D. N.D. 100 std std no std 150 std std no std 200 std std no std Hydraulic circuit Version "A with D " Water filter Pressure switch Flow switch Plate exchanger (desuperheater) Safety valve Air vent Pump (P) Expansion tank Storge tank 020 N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. 025 N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. 070 std std no std std std std std std 080 std std no std std std std std std 090 std std no std std std std std std 100 std std no std std std std std std 150 std std no std std std std std std 200 std std no std std std std std std KEY N.D. Version with DESUPERHEATER "D" 030 040 050 N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. 030 N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. 040 N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. N.D. 050 std std no std std std std std std SEZIONE INSTALLATORE Ciruit Chiller circuit Resistance compressor High pressure switch Low pressure switch High pressure trasducer Low pressure trasducer Solenoid valve of hot gas injecton By-pass valve of hot gas injecton Plate exchanger (EV- EV/CN) Plate exchanger (desuperheater) Cock the liquid and discharge SEZIONE UTENTE 3. not supplied Aermec cod. 6755512_05 6.2011 7 UK ANL-ANLH 020-200 4. PRINCIPLE OF OPERATION DIAGRAMS COOLING 4.1. PRODACTION COLD WATER TO THE SYSTEM 2 Description Exchanger 1 SYSTEM SIDE Exchanger 2 SOURCE SIDE Operation (EVAPORATION) Production cold water (CONDENSATION) Heat exchanger with the air H2O RETURN SYSTEM SIDE 1 H2O DELIVERY SYSTEM SIDE 4.2. PRODACTION COL WATER TO THE SYSTEM AND HOT WATER TO DESUPERHEATER H2O DELIVERY 3 H2O RETURN Description Exchanger 1 SYSTEM SIDE Exchanger 2 SOURCE SIDE 2 3 1 Exchanger DESUPERHEATER Operation (EVAPORATION) Production cold water (CONDENSATION) Heat exchanger with the air (CONDENSATION) Hot water (after heating - Swimming pools ...) H2O RETURN SYSTEM SIDE H2O DELIVERY SYSTEM SIDE 8 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 4.4. PRODACTION HOT WATER TO THE SYSTEM 2 Description Exchanger 1 SYSTEM SIDE Exchanger 2 SOURCE SIDE Operation (CONDENSATION) Production hot water (EVAPORATION) Heat exchanger with the air H2O RETURN SYSTEM SIDE 1 H2O DELIVERY SYSTEM SIDE 4.3. PRODACTION HOT WATER TO THE SYSTEM | DHW 2 Description Exchanger 1 SYSTEM SIDE Exchanger 2 SOURCE SIDE Operation (CONDENSATION) Production hot water (EVAPORATION) Heat exchanger with the air H2O RETURN SYSTEM SIDE 1 ATTENTION H2O DELIVERY SYSTEM SIDE For the production of the DHW is mandatory the use of accessories: • DCPX • VMF-ACS • MODU-485A Aermec cod. 6755512_05 6.2011 9 UK ANL-ANLH 020-200 5. DESCRIPTION OF COMPONENTS 4.5. COOLING CIRCUIT COMPRESSORI SCROLL with RESISTANCE ELECTRICA High efficient scroll type on anti-vibration mounts, activated by a 2-pole electric motor with internal circuit breaker protection. They are supplied, as standard, with an electric antifreeze resistance, powered automatically when the unit stops as long as the unit is live. EVAPORATOR Plate type (AISI 316). It is insulated externally with closed cell material to reduce thermal dispersions. DESUPERHEATER (Only "D" version) Unit with (AISI 316) heat plate, insulated externally with closed cell material to reduce heat loss. SOURCE SIDE HEAT EXCHANGER Made with copper pipes and aluminium louvered fins blocked by mechanical expansion of the pipes. Provided with protective grid. FRAME AND FANS BASE AND SUPPORT STRUCTURE Made up from hot galvanised sheet steel elements with suitable thickness. All parts painted with polyester powder paints (RAL 9002), resistant to atmospheric agents. Realised in a way to allow total accessibility to the components internal components. All panels are covered with sound-absorbent material with suitable thickness. FANS Axial, external rotor with helical blades, housed in the nozzle, complete network protection against accidents. 6-pole electric motor equipped with thermal protection. 4.7. HYDRAULIC CIRCUIT STANDARD WATER FILTER Equipped with steel filtering mesh; prevents the heat exchangers from clogging. 4 WAY CYCLE REVERSE VALVE (Only "H" version) Inverts the flow of refrigerant gas. FLOW SWITCH (provided on ANL 025…040°A|HA) It checks that there is circulation of water.If this is not the case, it blocks the unit STORAGE LIQUID (Only "H" version) Compensates the difference in volume between louvered fin coil and plate exchanger, withholding excess liquid during winter functioning. DIFFERENTIAL PRESSURE SWITCH (provided on ANL 020…200° -°P N|H - HP N) (provided on ANL 050…200°A Q |HA Q) It checks that here is water circulation inside the heat exchangers. Adversary, it blocks the unit. DEHYDRATOR FILTER Hermetic-mechanical with cartridges made of ceramic and hygroscopic material, able to withhold impurities and any traces of humidity present in the cooling circuit. 4.7.1. ONE WAY VALVES Allows the passage of the refrigerant in just one direction. MECHANICAL THERMOSTATIC VALVE The mechanical valve, with external equaliser positioned at the evaporator inlet, modulates the flow of gas to the evaporator, according to the heat load, in order to ensure a correct heating level of the intake gas. BY-PASS VALVE of HOT GAS INJECTION (Only "D" version) Device for hot gas injection of evaporator, mounted on versions with partial recovery. INDICATOR FOR LIQUID PASSAGE WITH HUMIDITY PRESENCE SIGNAL Used to check the refrigerant gas load and the eventual presence of humidity in the cooling circuit. COCK THE LIQUID AND DISCHARGE Allows interruption of the refrigerant in the case of extraordinary maintenance. 10 4.6. HYDRAULIC COMPONENTS IN CONFIGU RABLE VERSIONS PUMPS Standard or plus EXPANSION TANK With nitrogen pre-load membrane. SAFETY VALVE Equipped with a piped discharger and intervenes by discharges the over pressure in case of anomalous pressures. AIR VENT (Only "P-N-A-Q" version) assembled on the upper part of the hydraulic system; it releases any air bubbles that may be present in the system. STORAGE TANK In order to reduce the thermal dispersion and eliminate the phenomenon of the formation of condensation, it is insulated with polyurethane material of a suitable thickness. It is required to reduce the number of peaks of the compressor and to even the temperature of water to be sent to the utilities. Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 4.8. WATER FEATURES PH Electric conductivity Chloride ions Sulphuric acid ions Total iron Alkalinity M Total hardness Sulphur ions ammonia ions Silicone ions 4.9. 6-8 less than 200 mV/cm (25°C) less than 50 ppm less than 50 ppm less than 0,3 ppm less than 50 ppm less than 50 ppm none None less than 30 ppm CONTROL AND SAFETY COMPONENTS HIGH PRESSURE SWITCH With fixed calibration, placed on high pressure side of cooling circuit, inhibits functioning of compressor if abnormal work pressure occurs. LOW PRESSURE SWITCH (Only "° | C" version) With fixed calibration, placed on low pressure side of cooling circuit, inhibits functioning of compressor if abnormal work pressure occurs. HIGH PRESSURE TRANSDUCER Placed on high pressure side of cooling circuit, signals the work pressure to control board, generating a prewarning in case abnormal pressure occurs. LOW PRESSURE TRANSDUCER (Only "H" version) Allows displaying, on the microprocessor board display, the value of the compressor's suction pressure (one per circuit) on the low-pressure side of the cooling circuit 4.10. ELECTRIC BOARD, CONTROL AND POWER Electric board in compliance with the standards EN 60204-1/IEC 204-1, complete with: - transformer for the control circuit, - door lock main isolating switch, - fuses and contactors for compressors and fans, - clamps for REMOTE PANEL - terminal boards of the spring type control circuits, - outdoor electric control board, with double port and gaskets, - electronic control, - evaporator pump command consent relay and recovery pump (only for version without group pumps). - All the cables numbered Regolazione elettronica MODU CONTROL Temperature control of the output water with proportional-integral algorithm: maintains average output temperature at value set - Self-adapting differential switch: guarantees minimum functioning times of the compressor in systems with low water content. - Intelligent defrosting for pressure reduction: allows to determine when the coil is effectively defrosted, avoiding useless defrosting - Set-point compensation with external temperature (with external air probe accessory): reduces energy consumption - Condensation check based on the pressure rather than on temperature for absolute stability (with DCPX revs. adjuster accessory ) Inverse condensation check for the heat pump functioning mode also in summer (with dcpx revs. adjuster accessory) - Pre-alarms with automatic reset: in the case of alarm, a certain number of re-starts are allowed before the definitive block alarm on the ∆T: to identify wiring errors (reverse rotation) or blocked cycle reversing valve - Compressor functioning hours count. - Compressor peak count. - Historical alarms - Autostart after voltage drop. - Local or remote control Display of the start of the unit: 1. Voltage presence 2. compressor ON/OFF 3. func oning mode (hot/cold) 4. alarm ac ve Probes, transducers and parameters display 1. Water outlet 2. water inlet 3. Coil temperature (heat pumps) 4. Pressing gas temperature 5. External air temperature (heat pumps, cooling only with DCPX and probe) 6. Pressure delivery (heat pumps) 7. Intake pressure (heat pumps) 8. Temperature error (sum of the propor onal and integral error) 9. Stand-by mes for start-up/switch-off of the compressor 10. Alarms management: 11. Low pressure 12. High pressure (primary alarm: switch directly blocks supply to compressor) 13. High discharge temperature 14. An -freeze 15. Water differen al flow switch. Alarm on the ∆T − Alarms with automa c reset with limited number of re-starts before blocking. − ON/OFF external contact − Change season from external contact For further informa on please refer to user manual. DOOR LOCK ISOLATING SWITCH The electric control board can be accessed by removing the voltage. Act on the opening lever of the control board itself. This lever can be locked using one or more padlocks during maintenance interventions to prevent the machine being powered up accidentally. CONTROL BOARD Allows the complete control of the appliance. For a more detailed description please refer to the user manual. Aermec cod. 6755512_05 6.2011 11 UK ANL-ANLH 020-200 Accessories MODU-485A | DCPX are required for the production and management of DHW 5 Available only with 400V/3N applicable only in the factory. L'accessoires is not available for the: ANL 020…040°A | HA. 7 6. ACCESSORIES VT ANTI-VIBRATION Group of anti-vibration MODU-485A RS-485 interface for supervision system with MODBUS protocol DCPX Low temperature device for correct cooling mode operation with ambient temperature less than 19 °C down to – 10 °C. applicable only in the factory. DRE Current soft starter device (about 30% reduction for single-circuit-units, 26% for two-circuit-units, 22% for three-circuit-units) RA Electrical resistance for storage tank (only A|Q version). Avoids freezing of water stored in the tank during winter breaks. KR Electrical resistance for plate exchanger Avoids freezing of water stored in the tank during winter breaks. BSKW Kit electrical resistance of various external powers, with both single-phase power: - BS4KW230M (4 kW, 230V/1/50Hz) - BS6KW230M (6 kW, 230V/1/50Hz) - BS6KW400T (6 kW, 400V/3/50Hz) - BS9KW400T (9 kW, 400V/3/50Hz) VMF-ACS Control box for command / control of a domestic water storage: 1. 3 way valve control 2. legionella 3. Temperature probe Supplementary electric heater: 3 kW 230V-1|400V-3 6 kW 400V-3 8 kW 400V-3 VMF-E5B|N black or white panel for recessed installation, with backlit graphic LCD display and capacitive keyboard, allows the centralised command/control of: 1. an hydronic complete system made up of Fan coils consisting of 1 master + a maximum of 5 slaves; 2. chillerPompa (mandatory accessory interface RS 485, respectively MODU-485A) 3. Circulators: maximum 12 zone circulators configurable; 4. boiler: boiler consent management for the production of domestic hot water; 5. Heat recuperators: maximum 3 consents for programmable recuperators according to time periods and/or by air quality detection obtained with the accessory VMF-VOC, module domestic hot water 6. complete management of water production external boiler (ACCESSORY VMF-ACS see above) BDX Condensate drip tray for outdoor unit. PR3 MODU-485A 4 DRE 5 DCPX 4 VT RA BDX KR 6 BSK4KW230M BSK6KW230M BSK6KW400VT BSK9KW400VT VMF-E5B|N 4 VMF-ACS3KM 4 VMF-ACS3KTN 4 VMF-ACS6KTN 4 VMF-ACS8KTN 4 12 (°) - H - C TUTTE (°) - H - C (°) - C H (°) - H - HP - C A A (°) / P A (°) / P A 230V/1 230V/1 400V/3N 400V/3N TUTTE 230V/1 400V/3N 400V/3N 400V/3N ANL 20 ANL 25 ANL 30 ANL 40 ANL 50 ANL 70 ANL 80 ANL 90 ANL 100 ANL 150 ANL 200 • • 50 51 9 9 • 5 5 2 • • • • • • • • • • • 50 51 9 9 • 5 5 2 • • • • • • • • • • • 50 51 9 9 • 5 5 2 • • • • • • • • • • • 50 51 9 9 • 5 5 2 • • • • • • • • • • • 5 50 51 9 15 • 5 6 2 2 • • • • • 5 50 51 9 15 • 5 6 2 2 • • • • • 5 50 51 9 15 • 5 6 2 2 • • • • • 5 50 51 9 15 • 5 6 2 2 • • • • • 5x2 52 53 15 15 • 2 2 • • • • • 5x2 52 53 15 15 • 2 2 • • • • • 5X2 52 53 15 15 • 2 2 • • • • • • • • • • • • • • • • • • • • • • • • Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 Model Cooling capacity Total input power Water flow rate Pressure drops exchanger | piping Pressure drops filter Useful static pressur SYSTEM SIDE 025° 030° 040° 050° 070° 080° 090° 100° 150° 200° All ° P|A N|Q All kW kW kW kW l/h 5,7 1,84 1,99 980 6,2 2 2,15 1070 7,5 2,46 2,61 1290 9,6 3,25 3,4 1650 13,4 4,03 4,3 4,48 2310 16,5 4,88 5,15 5,33 2840 20,5 6,33 6,6 6,78 3530 22,3 6,63 6,9 7,08 3840 26,6 8.4 9.2 9.4 4580 33,0 10.0 11.5 11.3 5680 43,0 13.7 15.2 15.0 7400 ° kPa 20 20 20 21 21 21 26 25 43 39 32 P|A N|Q kPa kPa kPa 1 60 - 1 60 - 2 59 - 3 55 - 4 82 160 5,5 80 158 8 69 144 10 66 140 6 84 140 9 115 185 15 90 158 ° P|A N|Q W/W W/W W/W 3,10 2,86 3,72 3,10 2,88 3,72 3,05 2,87 3,66 2,95 2,82 3,54 3,33 3,12 2,99 3,99 3,38 3,20 3,10 4,06 3,24 3,11 3,02 3,88 3,36 3,23 3,15 4,03 3,17 2,89 2,83 4,14 3,30 2,87 2,92 4,25 3,14 2,83 2,87 4,12 kW l/h kPa - - - - 5,4 930 8 6,6 1140 10 8,2 1410 11 8,9 1530 13 13,8 2370 14 17,1 2940 24 18,9 3260 30 24 24 24 24 24 24 24 24 24 24 24 9,4 3,7 10,40 4,70 16,50 6 17,5 7 59,5 26,5 60,5 27,5 - 10 4,2 11,00 5,20 16,50 6 17,5 7,00 62,5 32,5 63,5 33,5 - 13 4,7 14,00 5,70 19,70 6,7 20,7 7,70 83,7 35,7 84,7 36,7 - 16,3 6,2 17,30 7,20 23,70 8,7 24,7 9,70 98,7 48,7 99,7 49,7 - 8,7 10.7 11,40 11,3 13,30 14 65,3 67,3 68 9,7 11.7 12,40 13,5 15,50 16,2 75,3 77,3 78 12,2 14.2 14,90 16,3 18,30 19 102,3 104,3 105 12,8 14.8 15,50 17,3 19,30 20 96,3 98,3 99 16,7 17.9 18.7 22 23,4 24.8 76 77.4 78.8 18,8 20.8 21.4 26 28,8 29.5 87 89.8 90.5 25,7 27.7 28.3 34 36,8 37.5 117 119.8 120.5 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x65 0-100 1 1 1 1 1 1 1 1 1 1 1 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ TECHNICAL DATA VER. "H" ① 020° TECHNICAL DATA VER. "°" TECHNICAL DATA ENERGY INDICES EER ESEER ② DESUPERHEATER Power recovered Water flow rate Pressure drops PROTECTION RATING IP ELECTRICAL DATA Total input current Maximum current (FLA) Peak current (LRA) 230V/1 400V/3N 230V/1 400V/3N 400V/3N 230V/1 400V/3N 230V/1 400V/3N 400V/3N 230V/1 400V/3N 230V/1 400V/3N 400V/3N COMPRESSORS SCROLL Number / circuit Compressors sump resistance Partload EXCHANGER SYSTEM SIDE Number Water content hydraulic connections ① COOLING MODE Evaporator water inlet Evaporator water outlet External air temperatures Aermec cod. 6755512_05 6.2011 ° ° P|A P|A N|Q ° ° P|A P|A N|Q ° ° P|A P|A N|Q A A A A A A A A A A A A A A A n°/n° n°/kW % n° dm3 Ø IN|OUT 7°C 12°C 35 °C ② COOLING MODE with DESUPERHEATER Desuperheater water inlet Evaporator water inlet Δt 2/1 2/1 2/1 2X35 2X35 2X65 0-50-100 0-50-100 0-50-100 50°C 7 °C 5° C 13 TECHNICAL DATA VER. "C" 7. UK ANL-ANLH 020-200 TECHNICAL DATA VER. "C" TECHNICAL DATA VER. "H" TECHNICAL DATA VER. "°" Model 020° 025° 030° 040° 050° 070° 080° 090° 100° 150° 200° 75 100 100 100 HYDRONIC KIT SYSTEM SIDE STORAGE TANK Storage tank Electri heater l N°/W 25 25 35 35 75 EXPANSION TANK Expansion tank Calibration expansion tank n°/l bar 2 1,5 2 1,5 2 1,5 2 1,5 5 1,5 5 1,5 5 1,5 5 1,5 8 1,5 8 1,5 8 1,5 STANDARD PUMP "P" Input power Input current kW A 0,15 1,04 0,15 1,04 0,15 1,04 0,15 1,04 0,27 1,95 0,27 1,95 0,27 1,95 0,27 1,95 0.6 1.2 1.0 2.0 1.0 2.0 INCREASED PUMP "N" Input power Input current kW A - - - - 0,45 2,7 0,45 2,7 0,45 2,7 0,45 2,7 1 2 1.3 2.6 1.3 2.6 n°/bar 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 n° dm3 Ø 1 1 1 1 1 1 1 1 1 1 1 FANS Number Air flow rate Input power Input current n° m3/h A kW 1 2500 0,085 0,45 1 2500 0,085 0,45 1 3500 0,14 0,66 1 3500 0,14 0,66 2 7200 0,28 1,32 2 7200 0,28 1,32 2 7300 0,28 1,32 2 7200 0,28 1,32 2 13200 0,6 2,6 2 12000 0,6 2,6 2 12000 0,6 2,6 SOUND DATA Sound pressure Sound power dB(A) dB(A) 30 61 30 61 37 68 37 68 38 69 38 69 38 69 37 68 44 76 45 77 46 78 3,48 3,41 3,79 3,74 3,73 3,73 4,7 4,7 8,00 8,00 11,5 11,5 12,0 12,0 1345 1345 1345 750 750 750 1750 1750 1750 270 288 293 314 329 350 338 364 400 SAFETY VALVE Safety valve DESUPERHEATER Number Water content hydraulic connections IN|OUT LOAD ATTENTION: the declared data can be amended at any time by Aermec, if deemed necessary . Refrigerant R410A °|P kg 1,25 1,30 1,56 2,00 Oil A kg 1,30 1,30 1,56 2,00 75 75 ACCESSORIES DIMENSIONS WEIGHT Height Width Depth (without feet / with feet) Weight °|P A Q °|P A Q °|P A Q ° P A Q Sound power Aermec determines sound power values in agreement with the 9614 Standard, in compliance with that requested by Eurovent certification 14 mm mm mm mm mm mm mm mm mm kg kg kg kg 868 868 1000 1000 1252 1252 1252 1252 868 868 1015 1015 1281 1281 1281 1281 1281 1281 1281 1281 900 900 900 900 1124 1124 1124 1124 1124 1124 1124 1124 1165 1165 1165 1165 1165 1165 1165 1165 310/354 310/354 310/354 310/354 384/428 384/428 384/428 384/428 384/428 384/428 384/428 384/428 550 550 550 550 550 550 550 550 75 75 86 86 120 120 120 156 77 77 91 91 127 127 163 163 99 99 103 103 147 147 147 183 151 151 187 187 Sound Pressure Sound pressure measured in free field conditions with reflective surface (directivity factor Q=2) at 10 mt distance from external surface of unit, in compliance with ISO 3744 regulations. Aermec cod. 6755512_05 6.2011 UK Heating capacity Total input power Water flow rate Pressure drops exchanger | piping Pressure drops filter Useful static pressur SYSTEM SIDE Cooling capacity Total input power Water flow rate Pressure drops exchanger | piping Useful static pressur SYSTEM SIDE 020H 025H 030H 040H 050H 070H 080H 090H 100H 150H 200H TUTTE H P|A N|Q TUTTE kW kW kW kW l/h 6,2 1,91 2,06 1070 7 2,12 2,27 1200 8,4 2,62 2,77 1450 10,6 3,18 3,33 1820 14 4,3 4,57 4,75 2410 17,3 4,9 5,17 5,35 2980 22,2 6,3 6,57 6,75 3820 24,2 6,85 7,12 7,3 4160 29 8,6 9.2 9.6 4990 35 10,1 11.1 11.4 6020 46 13,3 14.3 14.6 7910 H kPa 32 35 35 30 30 30 38 53 52 44 37 P|A N|Q kPa kPa kPa 1 60 - 1 60 - 2 59 - 3 55 - 4 82 160 5,5 80 158 8 69 144 10 66 140 6 84 142 9 115 187 15 90 162 TUTTE H P|A N|Q TUTTE kW kW kW kW l/h 5,7 1,84 1,99 980 6,2 2 2,15 1070 7,5 2,46 2,61 1290 9,6 3,25 3,4 1650 13,4 4,03 4,3 4,48 2310 16,5 4,88 5,15 5,33 2840 20,5 6,33 6,6 6,78 3530 22,3 6,63 6,9 7,08 3840 26 8,6 9.2 9.6 4470 32 10,2 11.2 11.5 5500 42 13,9 14.9 15.2 7220 H kPa 29 30 30 27 30 30 36 50 41 37 31 P|A N|Q kPa kPa 60 - 60 - 59 - 55 - 82 160 80 158 69 144 66 140 84 115 90 H P|A N|Q H P|A N|Q W/W W/W W/W W/W W/W W/W 3,10 2,86 3,25 3,01 3,72 3,10 2,88 3,30 3,08 3,72 3,05 2,87 3,21 3,03 3,66 2,95 2,82 3,33 3,18 3,54 3,33 3,12 2,99 3,26 3,06 2,95 3,99 3,38 3,20 3,10 3,53 3,35 3,23 4,06 3,24 3,11 3,02 3,52 3,38 3,29 3,88 3,36 3,23 3,15 3,53 3,40 3,32 4,03 3,02 2,83 2,71 3,37 3,15 3,02 4,14 3,14 2,86 2,78 3,47 3,15 3,07 4,25 3,02 2,82 2,76 3,46 3,22 3,15 4,12 24 24 24 24 24 24 24 24 24 24 24 9,4 3,7 9,4 4,7 10,4 3,8 10,4 4,8 16,5 6 17,5 7 59,5 26,5 60,5 27,5 - 10 4,2 10 5,2 11 4,4 12,3 5,4 16,5 6 17,5 7 62,5 32,5 63,5 33,5 - 13 4,7 13 5,7 14 5,4 14 6,4 19,7 6,7 20,7 7,7 83,7 35,7 84,7 36,7 - 16,3 6,2 16,3 7,2 17,3 6,8 19,3 7,8 23,7 8,7 24,7 9,7 98,7 48,7 99,7 49,7 - 8,7 10,7 11,4 9,5 11,5 12,2 11,3 13,3 14 65,3 67,3 68 9,7 11,7 12,4 10,3 12,3 13 13,5 15,5 16,2 75,3 77,3 78 12,2 14,2 14,9 12,9 14,9 15,6 16,3 18,3 19 102,3 104,3 105 12,8 14,8 15,5 13,8 15,8 16,5 17,3 19,3 20 96,3 98,3 99 17 18,2 19 17 18,2 19,0 22 23,4 23,4 76 77,4 78,8 19,2 21,2 21,8 19 21,0 21,6 26 28,8 28,8 87 89,8 90,5 26,2 28,2 28,8 25 27,0 27,6 34 36,8 36,8 117 119,8 120,5 TECHNICAL DATA VER. "H" Model TECHNICAL DATA VER. "°" ANL-ANLH 020-200 EER COP ESEER PROTECTION RATING IP TECHNICAL DATA VER. "C" ENERGY INDICES ELECTRICAL DATA Total input current cooling mode Total input current heating mode Maximum current (FLA) Peak current (LRA) ① HEATING MODE Condenser water inlet Condenser water outlet External air temperatures Aermec cod. 6755512_05 6.2011 230V/1 400V/3N 230V/1 400V/3N 400V/3N 230V/1 400V/3N 230V/1 400V/3N 400V/3N 230V/1 400V/3N 230V/1 400V/3N 400V/3N 230V/1 400V/3N 230V/1 400V/3N 400V/3N H H P|A P|A N|Q H H P|A P|A N|Q H H P|A P|A N|Q H H P|A P|A N|Q 40°C 45°C b.s. 7 °C/b.u. 6 °C A A A A A A A A A A A A A A A A A A A A ② COOLING MODE Evaporator water inlet Evaporator water outlet External air temperatures 7°C 12°C 35 °C 15 UK ANL-ANLH 020-200 TECHNICAL DATA VER. "°" Model COMPRESSORS SCROLL Number / circuit Compressors sump resistance Capacity controls EXCHANGER SYSTEM SIDE Number Water content hydraulic connections n°/n° n°/kW % n° dm3 Ø IN|OUT 020H 025H 030H 040H 050H 070H 080H 090H 100H 150H 200H 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x65 0-100 1 1 1 1 1 1 1 1 1 1 1 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 1"¼ 75 75 ACCESSORIES 75 100 100 100 2/1 2/1 2/1 2X35 2X35 2X65 0-50-100 0-50-100 0-50-100 TECHNICAL DATA VER. "C" TECHNICAL DATA VER. "H" HYDRONIC KIT SYSTEM SIDE STORAGE TANK Storage tank Electri heater l N°/W 25 25 35 35 75 EXPANSION TANK Expansion tank Calibration expansion tank n°/l bar 2 1,5 2 1,5 2 1,5 2 1,5 5 1,5 5 1,5 5 1,5 5 1,5 8 1,5 8 1,5 8 1,5 STANDARD PUMP "P" Input power Input current kW A 0,15 1,04 0,15 1,04 0,15 1,04 0,15 1,04 0,27 1,95 0,27 1,95 0,27 1,95 0,27 1,95 0.6 1.2 1.0 2.0 1.0 2.0 INCREASED PUMP "N" Input power Input current kW A - - - - 0,45 2,7 0,45 2,7 0,45 2,7 0,45 2,7 1 2 1.3 2.6 1.3 2.6 SAFETY VALVE Safety valve n°/bar 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 FANS Number Air flow rate Input power Input current n° m3/h A kW 1 2500 0,085 0,45 1 2500 0,085 0,45 1 3500 0,14 0,66 1 3500 0,14 0,66 2 7200 0,28 1,32 2 7200 0,28 1,32 2 7300 0,28 1,32 2 7200 0,28 1,32 2 13200 0,6 2,6 2 12000 0,6 2,6 2 12000 0,6 2,6 SOUND DATA Sound pressure Sound power dB(A) dB(A) 30 61 30 61 37 68 37 68 38 69 38 69 38 69 37 68 44 76 45 77 46 78 4,15 4,10 4,14 5,08 12,70 16,00 17,00 1345 1345 1345 750 750 750 1750 1750 1750 295 313 363 423 322 343 393 447 358 379 429 457 LOAD ATTENTION: the declared data can be amended at any time by Aermec, if deemed necessary . Refrigerant R410A °|P kg 1,50 1,50 1,80 1,99 Oil A kg DIMENSIONS WEIGHT Height Width Depth (without feet / with feet) Weight °|P A Q °|P A Q °|P A Q ° P A Q Sound power Aermec determines sound power values in agreement with the 9614 Standard, in compliance with that requested by Eurovent certification 16 mm mm mm mm mm mm mm mm mm kg kg kg kg 868 868 1000 1000 1252 1252 1252 1252 868 868 1015 1015 1281 1281 1281 1281 1281 1281 1281 1281 900 900 900 900 1124 1124 1124 1124 1124 1124 1124 1124 1165 1165 1165 1165 1165 1165 1165 1165 310/354 310/354 310/354 310/354 384/428 384/428 384/428 384/428 384/428 384/428 384/428 384/428 550 550 550 550 550 550 550 550 75 75 86 86 120 120 120 156 77 77 91 91 127 127 163 163 99 99 103 103 147 147 147 183 151 151 187 187 Sound Pressure Sound pressure measured in free field conditions with reflective surface (directivity factor Q=2) at 10 mt distance from external surface of unit, in compliance with ISO 3744 regulations. Aermec cod. 6755512_05 6.2011 UK 025C 030C 040C 050C 070C 080C 090C 100C 150C 200C Cooling capacity Total input power TUTTE ° kW kW 5,7 1,85 6 2,05 7,5 2,5 9,6 3,3 13,7 4,1 16,8 5 20,8 6,5 22,5 6,8 26,9 8,6 33,4 10,2 43,7 14,1 ENERGY INDICES EER ° W/W 3,08 2,93 3,00 2,91 3,34 3,36 3,20 3,31 3,13 3,27 3,10 24 24 24 24 24 24 24 24 24 24 24 9,50 3,70 16,5 6 59,5 26,5 10,00 4,20 16,5 6 62,5 32,5 13,00 4,70 19,7 6,7 83,7 35,7 16,30 6,30 23,7 8,7 98,7 48,7 8,90 11,3 65,3 9,90 13,5 75,3 12,40 16,3 102,3 13,10 17,3 96,3 17,10 22 76 19,30 26 87 26,40 34 117 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x70 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x35 0-100 1/1 1x65 0-100 1 2500 0,085 0,45 1 2500 0,085 0,45 1 3500 0,14 0,66 1 3500 0,14 0,66 2 7200 0,28 1,32 2 7200 0,28 1,32 2 7300 0,28 1,32 2 7200 0,28 1,32 3,48 3,79 3,73 4,70 PROTECTION RATING IP ELECTRICAL DATA Total input current Maximum current (FLA) Peak current (LRA) COMPRESSORS SCROLL Number / circuit Compressors sump resistance Capacity controls 230V/1 400V/3N 230V/1 400V/3N 230V/1 400V/3N ° ° ° ° ° ° A A A A A A n°/n° n°/kW % FANS Number Air flow rate Input power Input current n° m3/h A kW LOAD ATTENTION: the declared data can be amended at any time by Aermec, if deemed necessary . Refrigerant R410A kg 1,25 1,30 1,56 2,00 Oil kg CONNECTIONE Line gas Line liquid DIMENSIONS WEIGHT Height Width Depth (without feet / with feet) Weight ① COOLING MODE Evaporating temperature External air temperatures Aermec cod. 6755512_05 6.2011 2 13200 0,6 2,6 2 12000 0,6 2,6 2 12000 0,6 2,6 Ø Ø 15,88 9,52 15,88 9,52 15,88 12,7 15,88 12,7 22 15,88 22 15,88 22 15,88 28 15,88 28 15,88 28 15,88 35 15,88 mm mm 868 900 868 900 1000 900 1000 900 1252 1124 1252 1124 1252 1124 1252 1124 1345 750 1345 750 1345 750 1750 1750 1750 mm kg 5°C 35 °C 2/1 2/1 2/1 2X35 2X35 2X65 0-50-100 0-50-100 0-50-100 310/354 310/354 310/354 310/354 384/428 384/428 384/428 384/428 70 70 78 78 110 Sound power Aermec determines sound power values in agreement with the 9614 Standard, in compliance with that requested by Eurovent certification 110 141 141 Sound Pressure Sound pressure measured in free field conditions with reflective surface (directivity factor Q=2) at 10 mt distance from external surface of unit, in compliance with ISO 3744 regulations. 17 TECHNICAL DATA VER. "H" ① 020C TECHNICAL DATA VER. "C" Model TECHNICAL DATA VER. "°" ANL-ANLH 020-200 UK ITA ANL-ANLH 020-200 OPERATION LIMIT 8.1. COOLING MODE 8 The units, in standard configuration, are not suitable for installation in salty environments. The maximum and minimum limits for water flow rate to the heat exchanger are indicated by the pressure drop diagram curves. For functioning limits, please refer to the diagrams below, valid for ∆t = 5°C If it is installed in a particularly windy zone, a windbreak should be provided to avoid unstable operation of the DCPX device. 50 45 40 External air temperature b.s. °C 8. 46 46 Functioning with glycoled water 35 30 25 20 15 10 5 0 STANDARD functioning Functioning with glycoled water and DCPX Functioning with DCPX -5 -10 -15 -10 -9 -8 -7 -6 -5 -4 -3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Z Thermosta c valve ° Y Temperature of the water produced EVAPORATOR °C COOLING MODE FOR VERSION "C" External air temperature b.s. °C 8.2. 50 45 40 46 35 30 25 20 15 10 5 0 46 Functioning with DCPX -5 -10 -15 -10 -9 -8 -7 -6 -5 -4 -3 -2 -1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 EVAPORATING temperature °C HEATING MODE 8 Temperature of the water produced CONDENSER 8.3. 60 55 50 °C 50 45 40 50 °C Functioning with DCPX 35 30 25 20 15 42 °C -10 -5 0 5 10 15 20 25 30 35 40 45 50 External air temperature b.s. °C Note: 8 In summer mode the unit can be started with external air 46°C and water inlet 35°C. In winter mode the unit can be started with external air -15°C and water inlet 20°C. 18 Operate in such conditions is permitted only for a short time and to bring the system up to temperature. To reduce the time of this operation, it is recommended to install a three-way valve that allows bypassing water from the system utilities, until the conditions that allow the unit to work within the permitted operation limits are achieved. Aermec cod. 6755512_05 6.2011 UK PERFORMANCE AND ABSORPTION THAT DIFFER FROM THE NOMINAL STANDARD COOLING MODE 9.1. ANL 020° 230V/1/50Hz | 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 9.2. 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 5,07 5,37 5,66 5,95 6,23 6,50 6,76 6,89 7,02 7,28 7,53 7,78 8,02 8,26 1,23 1,24 1,25 1,26 1,26 1,27 1,27 1,29 1,30 1,31 1,32 1,34 1,35 1,36 4,12 4,33 4,53 4,72 4,94 5,12 5,32 5,34 5,40 5,56 5,70 5,81 5,94 6,07 4,79 5,07 5,34 5,61 5,87 6,13 6,38 6,50 6,63 6,87 7,11 7,34 7,58 7,81 1,42 1,43 1,44 1,44 1,45 1,45 1,46 1,47 1,48 1,50 1,51 1,52 1,53 1,55 3,37 3,55 3,71 3,90 4,05 4,23 4,37 4,42 4,48 4,58 4,71 4,83 4,95 5,04 4,49 4,75 5,01 5,26 5,51 5,75 5,99 6,11 6,23 6,46 6,68 6,91 7,13 7,35 1,61 1,62 1,62 1,63 1,63 1,64 1,65 1,66 1,67 1,68 1,70 1,71 1,72 1,74 2,79 2,93 3,09 3,23 3,38 3,51 3,63 3,68 3,73 3,85 3,93 4,04 4,15 4,22 4,18 4,43 4,68 4,91 5,15 5,38 5,60 5,70 5,82 6,04 6,26 6,47 6,68 6,89 1,78 1,79 1,79 1,80 1,81 1,81 1,82 1,84 1,84 1,86 1,87 1,88 1,89 1,90 2,35 2,47 2,61 2,73 2,85 2,97 3,08 3,10 3,16 3,25 3,35 3,44 3,53 3,63 4,34 4,56 4,78 5,00 5,21 5,32 5,42 5,63 5,84 6,04 6,24 6,45 1,94 1,94 1,95 1,96 1,98 1,98 1,99 2,00 2,01 2,02 2,03 2,05 2,24 2,35 2,45 2,55 2,63 2,69 2,72 2,82 2,91 2,99 3,07 3,15 4,63 4,83 4,93 5,03 - 2,07 2,09 2,09 2,10 - 2,24 2,31 2,36 2,40 - ANL 025° 230V/1/50Hz | 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 8.4. 25 30 35 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 5,51 5,84 6,16 6,47 6,78 7,07 7,35 7,49 7,64 7,92 8,19 8,46 8,72 8,98 1,34 1,35 1,36 1,37 1,37 1,38 1,38 1,40 1,41 1,42 1,43 1,46 1,47 1,48 4,12 4,33 4,53 4,73 4,95 5,12 5,33 5,34 5,40 5,56 5,71 5,81 5,94 6,08 5,21 5,51 5,81 6,10 6,38 6,67 6,94 7,07 7,21 7,47 7,73 7,98 8,24 8,50 1,54 1,55 1,57 1,57 1,58 1,58 1,59 1,60 1,61 1,63 1,64 1,65 1,66 1,68 3,38 3,55 3,71 3,90 4,05 4,23 4,37 4,42 4,48 4,58 4,71 4,83 4,96 5,04 4,88 5,17 5,45 5,72 5,99 6,25 6,52 6,65 6,78 7,03 7,27 7,52 7,76 7,99 1,75 1,76 1,76 1,77 1,77 1,78 1,79 1,80 1,82 1,83 1,85 1,86 1,87 1,89 2,79 2,93 3,09 3,23 3,38 3,51 3,63 3,68 3,73 3,85 3,93 4,04 4,15 4,23 4,55 4,82 5,09 5,34 5,60 5,85 6,09 6,20 6,33 6,57 6,81 7,04 7,27 7,49 1,93 1,95 1,95 1,96 1,97 1,97 1,98 2,00 2,00 2,02 2,03 2,04 2,05 2,07 2,35 2,48 2,62 2,73 2,85 2,97 3,08 3,10 3,17 3,25 3,35 3,44 3,54 3,63 4,72 4,96 5,20 5,44 5,67 5,79 5,90 6,12 6,35 6,57 6,79 7,02 2,11 2,11 2,12 2,13 2,15 2,15 2,16 2,17 2,18 2,20 2,21 2,23 2,24 2,35 2,45 2,55 2,63 2,69 2,73 2,82 2,91 2,99 3,08 3,15 5,04 5,25 5,36 5,47 - 2,25 2,27 2,27 2,28 - 2,24 2,31 2,36 2,40 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) Δt DIFFERENT FROM NOMINAL Δt 5°C) Cooling capacity correction factors Total input power correction factors 8.5. 40 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 FOULING FACTOR Cooling capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 19 HEATING MODE 9. COOLING MODE ANL-ANLH 020-200 UK ANL-ANLH 020-200 9.5. ANL 030° 230V/1/50Hz | 400V/3N/50Hz) Cooling capacity - Total input power TAP -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 9.6. 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 6,67 7,07 7,45 7,83 8,20 8,55 8,89 9,07 9,24 9,58 9,91 10,24 10,55 10,87 1,64 1,66 1,67 1,68 1,68 1,70 1,70 1,72 1,74 1,75 1,76 1,79 1,80 1,82 4,06 4,26 4,46 4,65 4,87 5,04 5,24 5,26 5,31 5,47 5,61 5,71 5,85 5,98 6,30 6,67 7,03 7,38 7,72 8,07 8,39 8,55 8,72 9,04 9,36 9,66 9,97 10,28 1,90 1,91 1,93 1,93 1,94 1,94 1,95 1,97 1,98 2,01 2,02 2,03 2,05 2,07 3,32 3,49 3,65 3,83 3,98 4,16 4,30 4,35 4,41 4,51 4,63 4,75 4,88 4,96 5,91 6,25 6,59 6,92 7,25 7,57 7,88 8,04 8,20 8,50 8,79 9,09 9,38 9,67 2,15 2,17 2,17 2,18 2,18 2,19 2,21 2,22 2,23 2,25 2,27 2,29 2,30 2,33 2,74 2,89 3,04 3,18 3,33 3,45 3,57 3,62 3,67 3,78 3,87 3,98 4,08 4,16 5,50 5,83 6,16 6,46 6,78 7,08 7,37 7,50 7,66 7,95 8,24 8,51 8,79 9,07 2,38 2,39 2,39 2,41 2,42 2,42 2,43 2,46 2,46 2,49 2,50 2,51 2,53 2,54 2,31 2,44 2,57 2,68 2,80 2,93 3,03 3,05 3,11 3,20 3,29 3,39 3,48 3,57 5,71 6,00 6,29 6,58 6,86 7,00 7,13 7,41 7,68 7,95 8,21 8,49 2,59 2,59 2,61 2,62 2,65 2,65 2,66 2,67 2,69 2,70 2,71 2,74 2,20 2,31 2,41 2,51 2,59 2,64 2,68 2,77 2,86 2,94 3,03 3,10 6,09 6,36 6,49 6,62 - 2,77 2,79 2,79 2,81 - 2,20 2,27 2,32 2,36 - ANL 040° 230V/1/50Hz | 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C 20 TAP HEATING MODE COOLING MODE EXTERNAL AIR TEMPERATURE °C 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 9.3. 25 30 35 Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 8,54 9,04 9,53 10,02 10,49 10,95 11,39 11,60 11,82 12,26 12,68 13,10 13,51 13,91 2,17 2,19 2,21 2,23 2,23 2,24 2,24 2,28 2,30 2,31 2,33 2,37 2,38 2,40 3,93 4,13 4,32 4,50 4,71 4,88 5,08 5,09 5,15 5,30 5,44 5,54 5,66 5,79 8,07 8,54 8,99 9,45 9,89 10,32 10,75 10,95 11,17 11,57 11,97 12,36 12,77 13,15 2,51 2,53 2,54 2,54 2,56 2,56 2,58 2,60 2,61 2,65 2,67 2,68 2,70 2,74 3,22 3,38 3,54 3,71 3,86 4,03 4,17 4,22 4,27 4,37 4,49 4,60 4,72 4,80 7,56 8,00 8,44 8,86 9,28 9,68 10,09 10,29 10,49 10,88 11,25 11,64 12,01 12,38 2,84 2,86 2,86 2,88 2,88 2,90 2,91 2,93 2,95 2,97 3,00 3,02 3,04 3,07 2,66 2,80 2,95 3,08 3,22 3,34 3,46 3,51 3,56 3,67 3,75 3,85 3,95 4,03 7,04 7,46 7,88 8,27 8,67 9,06 9,43 9,60 9,80 10,17 10,54 10,90 11,25 11,60 3,14 3,16 3,16 3,18 3,20 3,20 3,21 3,25 3,25 3,29 3,30 3,32 3,34 3,36 2,24 2,36 2,49 2,60 2,71 2,83 2,93 2,95 3,02 3,10 3,19 3,28 3,37 3,46 7,31 7,68 8,05 8,42 8,77 8,96 9,13 9,48 9,84 10,17 10,51 10,86 3,43 3,43 3,44 3,46 3,50 3,50 3,51 3,53 3,55 3,57 3,59 3,62 2,13 2,24 2,34 2,43 2,51 2,56 2,60 2,68 2,77 2,85 2,93 3,00 7,80 8,13 8,30 8,47 - 3,66 3,69 3,69 3,71 - 2,13 2,20 2,25 2,28 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) Δt DIFFERENT FROM NOMINAL Δt 5°C) 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 FOULING FACTOR Cooling capacity correction factors Total input power correction factors 20 45 Pc (kW) Cooling capacity correction factors Total input power correction factors 9.4. 40 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 COOLING MODE ANL 050° 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 11,92 12,62 13,31 13,99 14,65 15,28 15,89 16,20 16,50 17,11 17,70 18,29 18,85 19,42 2,69 2,72 2,74 2,76 2,76 2,78 2,78 2,83 2,85 2,87 2,89 2,93 2,96 2,98 4,42 4,65 4,86 5,07 5,31 5,49 5,71 5,73 5,80 5,96 6,12 6,23 6,38 6,52 11,26 11,92 12,55 13,19 13,80 14,41 15,00 15,28 15,59 16,15 16,71 17,26 17,82 18,36 3,11 3,13 3,15 3,15 3,18 3,18 3,20 3,22 3,24 3,29 3,31 3,33 3,35 3,39 3,62 3,81 3,98 4,18 4,35 4,54 4,69 4,75 4,81 4,92 5,05 5,18 5,32 5,41 10,56 11,17 11,78 12,37 12,95 13,52 14,08 14,36 14,65 15,19 15,70 16,24 16,76 17,28 3,53 3,55 3,55 3,57 3,57 3,59 3,61 3,64 3,66 3,68 3,72 3,75 3,77 3,81 2,99 3,15 3,32 3,46 3,63 3,76 3,90 3,95 4,00 4,13 4,22 4,34 4,45 4,53 9,83 10,41 11,00 11,54 12,11 12,65 13,16 13,40 13,68 14,20 14,72 15,21 15,70 16,20 3,90 3,92 3,92 3,94 3,96 3,96 3,99 4,03 4,03 4,07 4,10 4,12 4,14 4,16 2,52 2,66 2,81 2,93 3,05 3,19 3,30 3,33 3,40 3,49 3,59 3,69 3,79 3,89 10,20 10,72 11,24 11,75 12,25 12,51 12,74 13,24 13,73 14,20 14,67 15,16 4,25 4,25 4,27 4,29 4,34 4,34 4,36 4,38 4,40 4,42 4,45 4,49 2,40 2,52 2,63 2,74 2,82 2,88 2,92 3,02 3,12 3,21 3,30 3,38 10,88 11,35 11,59 11,82 - 4,53 4,58 4,58 4,60 - 2,40 2,48 2,53 2,57 - 9.10. ANL 070 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 9.7. 25 30 35 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 14,68 15,54 16,38 17,22 18,03 18,82 19,57 19,94 20,32 21,07 21,80 22,52 23,22 23,91 3,26 3,29 3,32 3,34 3,34 3,37 3,37 3,42 3,45 3,47 3,50 3,55 3,58 3,61 4,50 4,73 4,94 5,15 5,40 5,59 5,81 5,83 5,89 6,07 6,23 6,34 6,48 6,63 13,87 14,68 15,46 16,24 16,99 17,74 18,47 18,82 19,19 19,89 20,58 21,25 21,94 22,61 3,77 3,79 3,82 3,82 3,85 3,85 3,87 3,90 3,93 3,98 4,00 4,03 4,06 4,11 3,68 3,87 4,05 4,25 4,42 4,61 4,77 4,83 4,89 5,00 5,14 5,27 5,41 5,50 13,00 13,75 14,50 15,23 15,95 16,64 17,34 17,69 18,03 18,70 19,34 20,00 20,64 21,28 4,27 4,30 4,30 4,32 4,32 4,35 4,38 4,40 4,43 4,46 4,51 4,54 4,56 4,61 3,04 3,20 3,38 3,52 3,69 3,83 3,96 4,02 4,07 4,20 4,29 4,41 4,52 4,61 12,10 12,82 13,55 14,21 14,91 15,57 16,21 16,50 16,85 17,48 18,12 18,73 19,34 19,94 4,72 4,75 4,75 4,77 4,80 4,80 4,83 4,88 4,88 4,93 4,96 4,99 5,01 5,04 2,56 2,70 2,85 2,98 3,11 3,24 3,36 3,38 3,45 3,54 3,65 3,76 3,86 3,96 12,56 13,20 13,84 14,47 15,08 15,40 15,69 16,30 16,91 17,48 18,06 18,67 5,15 5,15 5,17 5,20 5,25 5,25 5,28 5,30 5,33 5,36 5,38 5,44 2,44 2,57 2,68 2,78 2,87 2,93 2,97 3,07 3,17 3,26 3,36 3,43 13,40 13,98 14,27 14,56 - 5,49 5,54 5,54 5,57 - 2,44 2,52 2,57 2,61 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) Δt DIFFERENT FROM NOMINAL Δt 5°C) Cooling capacity correction factors Total input power correction factors 9.8. 40 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 FOULING FACTOR Cooling capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 21 HEATING MODE 9.9. UK ANL-ANLH 020-200 9.11. ANL 080 400V/3N/50Hz) Cooling capacity - Total input power TAP -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 18,23 19,31 20,36 21,40 22,41 23,38 24,31 24,78 25,25 26,18 27,08 27,98 28,84 29,71 4,23 4,27 4,30 4,33 4,33 4,37 4,37 4,44 4,47 4,51 4,54 4,61 4,64 4,68 4,31 4,53 4,73 4,94 5,17 5,35 5,56 5,58 5,65 5,81 5,96 6,07 6,21 6,35 17,23 18,23 19,21 20,18 21,11 22,05 22,95 23,38 23,84 24,71 25,57 26,40 27,26 28,09 4,89 4,92 4,95 4,95 4,99 4,99 5,02 5,06 5,09 5,16 5,19 5,23 5,26 5,33 3,53 3,71 3,88 4,07 4,23 4,42 4,57 4,62 4,68 4,79 4,92 5,05 5,18 5,27 16,15 17,08 18,02 18,92 19,82 20,68 21,54 21,97 22,41 23,23 24,02 24,85 25,64 26,43 5,54 5,57 5,57 5,61 5,61 5,64 5,68 5,71 5,75 5,78 5,85 5,88 5,92 5,99 2,92 3,07 3,23 3,37 3,53 3,67 3,80 3,85 3,90 4,02 4,11 4,22 4,33 4,42 15,03 15,93 16,83 17,66 18,52 19,35 20,14 20,50 20,93 21,72 22,51 23,27 24,02 24,78 6,12 6,16 6,16 6,19 6,23 6,23 6,26 6,33 6,33 6,40 6,43 6,47 6,50 6,54 2,45 2,59 2,73 2,85 2,97 3,11 3,22 3,24 3,31 3,39 3,50 3,60 3,69 3,79 15,61 16,40 17,19 17,98 18,74 19,13 19,49 20,25 21,00 21,72 22,44 23,20 6,67 6,67 6,71 6,74 6,81 6,81 6,85 6,88 6,91 6,95 6,98 7,05 2,34 2,46 2,56 2,67 2,75 2,81 2,85 2,94 3,04 3,13 3,21 3,29 16,65 17,37 17,73 18,09 - 7,12 7,19 7,19 7,22 - 2,34 2,42 2,47 2,50 - 9.12. ANL 090 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C 20 TAP HEATING MODE COOLING MODE EXTERNAL AIR TEMPERATURE °C 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 19,84 21,01 22,14 23,28 24,37 25,43 26,45 26,96 27,46 28,48 29,46 30,44 31,38 32,32 4,43 4,47 4,50 4,54 4,54 4,58 4,58 4,65 4,68 4,72 4,76 4,83 4,86 4,90 4,48 4,70 4,92 5,13 5,37 5,56 5,78 5,80 5,86 6,03 6,19 6,30 6,45 6,59 18,74 19,84 20,89 21,95 22,97 23,98 24,96 25,43 25,94 26,88 27,82 28,72 29,66 30,55 5,12 5,15 5,19 5,19 5,22 5,22 5,26 5,30 5,33 5,40 5,44 5,48 5,51 5,59 3,66 3,85 4,03 4,23 4,40 4,59 4,74 4,80 4,86 4,97 5,11 5,24 5,38 5,47 17,57 18,58 19,60 20,58 21,56 22,50 23,43 23,90 24,37 25,27 26,13 27,03 27,89 28,76 5,80 5,84 5,84 5,87 5,87 5,91 5,95 5,98 6,02 6,05 6,13 6,16 6,20 6,27 3,03 3,18 3,36 3,50 3,67 3,81 3,94 4,00 4,05 4,18 4,27 4,39 4,50 4,59 16,35 17,33 18,31 19,21 20,15 21,05 21,91 22,30 22,77 23,63 24,49 25,31 26,13 26,96 6,41 6,45 6,45 6,49 6,52 6,52 6,56 6,63 6,63 6,70 6,74 6,77 6,81 6,85 2,55 2,69 2,84 2,96 3,09 3,23 3,34 3,36 3,43 3,53 3,63 3,74 3,84 3,94 16,98 17,84 18,70 19,56 20,38 20,81 21,20 22,03 22,85 23,63 24,41 25,23 6,99 6,99 7,03 7,06 7,13 7,13 7,17 7,21 7,24 7,28 7,31 7,39 2,43 2,55 2,66 2,77 2,86 2,92 2,96 3,06 3,15 3,25 3,34 3,42 18,11 18,90 19,29 19,68 - 7,46 7,53 7,53 7,57 - 2,43 2,51 2,56 2,60 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) 9.13. Δt DIFFERENT FROM NOMINAL Δt 5°C) Cooling capacity correction factors Total input power correction factors 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 9.14. FOULING FACTOR Cooling capacity correction factors Total input power correction factors 22 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 23,66 25,06 26,41 27,77 29,07 30,33 31,55 32,15 32,76 33,97 35,14 36,31 37,43 38,55 5,62 5,66 5,71 5,75 5,75 5,80 5,80 5,89 5,93 5,98 6,03 6,12 6,16 6,21 4,21 4,43 4,63 4,83 5,05 5,23 5,44 5,46 5,52 5,68 5,83 5,93 6,07 6,21 22,35 23,66 24,92 26,18 27,39 28,61 29,77 30,33 30,94 32,06 33,18 34,25 35,37 36,45 6,48 6,53 6,57 6,57 6,62 6,62 6,67 6,71 6,76 6,85 6,89 6,94 6,98 7,08 3,45 3,62 3,79 3,98 4,14 4,32 4,47 4,52 4,58 4,68 4,81 4,94 5,06 5,15 20,95 22,17 23,38 24,55 25,71 26,83 27,95 28,51 29,07 30,15 31,17 32,25 33,27 34,30 7,35 7,40 7,40 7,44 7,44 7,49 7,53 7,58 7,62 7,67 7,76 7,81 7,85 7,94 2,85 3,00 3,16 3,30 3,46 3,58 3,71 3,76 3,81 3,93 4,02 4,13 4,24 4,32 19,51 20,67 21,84 22,91 24,03 25,11 26,13 26,60 27,16 28,19 29,21 30,19 31,17 32,15 8,13 8,17 8,17 8,22 8,26 8,26 8,31 8,40 8,40 8,49 8,54 8,58 8,63 8,67 2,40 2,53 2,67 2,79 2,91 3,04 3,15 3,17 3,23 3,32 3,42 3,52 3,61 3,71 20,25 21,28 22,31 23,33 24,31 24,83 25,29 26,27 27,25 28,19 29,12 30,10 8,86 8,86 8,90 8,95 9,04 9,04 9,08 9,13 9,18 9,22 9,27 9,36 2,29 2,40 2,51 2,61 2,69 2,75 2,78 2,88 2,97 3,06 3,14 3,22 21,61 22,54 23,01 23,47 - 9,45 9,54 9,54 9,59 - 2,29 2,36 2,41 2,45 - 9.16. ANL 150 400V/3N/50Hz) Cooling capacity - Total input power EXTERNAL AIR TEMPERATURE °C TAP 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 29,35 31,09 32,77 34,45 36,07 37,63 39,14 39,89 40,64 42,15 43,59 45,04 46,43 47,82 6,68 6,74 6,79 6,85 6,85 6,90 6,90 7,01 7,07 7,12 7,17 7,28 7,34 7,39 4,39 4,61 4,82 5,03 5,27 5,45 5,67 5,69 5,75 5,92 6,08 6,18 6,33 6,47 27,73 29,35 30,92 32,48 33,98 35,49 36,94 37,63 38,38 39,77 41,16 42,49 43,88 45,22 7,72 7,77 7,83 7,83 7,88 7,88 7,93 7,99 8,04 8,15 8,21 8,26 8,32 8,42 3,59 3,78 3,95 4,15 4,31 4,50 4,66 4,71 4,77 4,88 5,02 5,14 5,28 5,37 25,99 27,50 29,01 30,45 31,90 33,29 34,68 35,37 36,07 37,40 38,67 40,01 41,28 42,55 8,75 8,80 8,80 8,86 8,86 8,91 8,97 9,02 9,08 9,13 9,24 9,29 9,35 9,46 2,97 3,12 3,29 3,44 3,60 3,73 3,87 3,92 3,97 4,10 4,19 4,30 4,42 4,50 24,20 25,65 27,09 28,43 29,82 31,15 32,42 33,00 33,69 34,97 36,24 37,46 38,67 39,89 9,67 9,73 9,73 9,78 9,84 9,84 9,89 10,00 10,00 10,11 10,16 10,22 10,27 10,33 2,50 2,64 2,79 2,91 3,03 3,17 3,28 3,30 3,37 3,46 3,57 3,67 3,77 3,86 25,13 26,40 27,67 28,95 30,16 30,80 31,38 32,59 33,81 34,97 36,13 37,34 10,54 10,54 10,60 10,65 10,76 10,76 10,82 10,87 10,92 10,98 11,03 11,14 2,38 2,50 2,61 2,72 2,80 2,86 2,90 3,00 3,10 3,19 3,27 3,35 26,81 27,96 28,54 29,12 - 11,25 11,36 11,36 11,41 - 2,38 2,46 2,51 2,55 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) 9.17. Δt DIFFERENT FROM NOMINAL Δt 5°C) Cooling capacity correction factors Total input power correction factors 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 9.18. FOULING FACTOR Cooling capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 23 HEATING MODE COOLING MODE 9.15. ANL 100° 400V/3N/50Hz) Cooling capacity - Total input power UK ANL-ANLH 020-200 9.21. ANL 200 400V/3N/50Hz) Cooling capacity - Total input power HEATING MODE TAP COOLING MODE EXTERNAL AIR TEMPERATURE °C 20 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 Key Pc Pe TAP 25 30 35 40 45 Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER Pc (kW) Pe (kW) EER 38,25 40,51 42,70 44,89 47,00 49,04 51,00 51,98 52,96 54,92 56,81 58,69 60,50 62,31 9,16 9,23 9,31 9,38 9,38 9,46 9,46 9,60 9,68 9,75 9,83 9,98 10,05 10,13 4,18 4,39 4,59 4,78 5,01 5,19 5,39 5,41 5,47 5,63 5,78 5,88 6,02 6,15 36,14 38,25 40,28 42,32 44,28 46,24 48,13 49,04 50,02 51,83 53,64 55,37 57,18 58,92 10,57 10,65 10,72 10,72 10,80 10,80 10,87 10,95 11,02 11,17 11,24 11,32 11,39 11,54 3,42 3,59 3,76 3,95 4,10 4,28 4,43 4,48 4,54 4,64 4,77 4,89 5,02 5,11 33,87 35,83 37,79 39,68 41,57 43,38 45,19 46,09 47,00 48,73 50,39 52,13 53,79 55,45 11,99 12,06 12,06 12,14 12,14 12,21 12,29 12,36 12,43 12,51 12,66 12,73 12,81 12,96 2,83 2,97 3,13 3,27 3,42 3,55 3,68 3,73 3,78 3,90 3,98 4,09 4,20 4,28 31,53 33,42 35,31 37,04 38,85 40,59 42,25 43,00 43,91 45,56 47,22 48,81 50,39 51,98 13,25 13,33 13,33 13,40 13,48 13,48 13,55 13,70 13,70 13,85 13,92 14,00 14,07 14,15 2,38 2,51 2,65 2,76 2,88 3,01 3,12 3,14 3,20 3,29 3,39 3,49 3,58 3,67 32,74 34,40 36,06 37,72 39,30 40,13 40,89 42,47 44,06 45,56 47,07 48,66 14,44 14,44 14,52 14,59 14,74 14,74 14,82 14,89 14,97 15,04 15,11 15,26 2,27 2,38 2,48 2,58 2,67 2,72 2,76 2,85 2,94 3,03 3,11 3,19 34,93 36,44 37,19 37,95 - 15,41 15,56 15,56 15,64 - 2,27 2,34 2,39 2,43 - Cooling capacity Total Input Power Produced water temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.1) 9.19. Δt DIFFERENT FROM NOMINAL Δt 5°C) Cooling capacity correction factors Total input power correction factors 3 0,99 0,99 5 1 1 8 1,02 1,01 10 1,03 1,02 [K*m2]/[W] 0,00005 1 1 0,0001 0,98 0,98 0,0002 0,94 0,95 9.20. FOULING FACTOR Cooling capacity correction factors Total input power correction factors 24 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 10. PERFORMANCE AND ABSORPTION THAT DIFFER FROM THE NOMINAL HEATING MODE COOLING MODE 10.1. ANL 020H 230V/1/50Hz | 400V/3N/50Hz) Hea ng capacity - total input power -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Ph (kW) Pe (kW) 3,91 4,13 4,35 4,56 4,77 4,98 5,11 6,08 6,44 6,61 6,78 7,09 7,39 7,69 7,99 8,31 8,65 1,40 1,40 1,40 1,40 1,40 1,40 1,40 1,40 1,40 1,41 1,41 1,41 1,41 1,41 1,41 1,4 1 1,42 35 COP Ph (kW) Pe (kW) 2,79 2,95 3,11 3,26 3,41 3,56 3,65 4,34 4,60 4,69 4,81 5,03 5,24 5,45 5,67 5,89 6,09 3,83 4,04 4,24 4,43 4,63 4,82 5,08 5,97 6,31 6,47 6,62 6,91 7,19 7,46 7,74 8,03 8,35 1,63 1,63 1,62 1,63 1,63 1,63 1,63 1,63 1,63 1,63 1,64 1,64 1,64 1,64 1,64 1,64 1,64 40 COP Ph (kW) Pe (kW) 2,35 2,48 2,62 2,72 2,84 2,96 3,12 3,66 3,87 3,97 4,04 4,21 4,38 4,55 4,72 4,90 5,09 3,93 4,12 4,31 4,50 4,68 4,90 5,86 6,18 6,33 6,48 6,75 7,00 7,25 7,50 7,77 8,05 1,76 1,76 1,76 1,76 1,77 1,77 1,77 1,77 1,77 1,77 1,78 1,78 1,78 1,78 1,78 1,78 45 COP Ph (kW) Pe (kW) 2,23 2,34 2,45 2,56 2,64 2,77 3,31 3,49 3,58 3,66 3,79 3,93 4,07 4,21 4,37 4,52 4,00 4,19 4,37 4,55 4,77 4,55 6,06 6,20 6,33 6,58 6,81 7,04 7,27 7,51 7,77 1,90 1,90 1,90 1,90 1,90 1,90 1,91 1,91 1,91 1,91 1,92 1,92 1,92 1,92 1,92 50 COP Ph (kW) Pe (kW) COP 2,11 2,21 2,30 2,39 2,51 2,39 3,17 3,25 3,31 3,45 3,55 3,67 3,79 3,91 4,05 4,05 4,25 4,44 4,65 5,62 5,91 6,04 6,17 6,40 6,61 6,81 7,02 7,24 7,47 2,13 2,13 2,13 2,13 2,14 2,14 2,14 2,14 2,14 2,14 2,15 2,15 2,15 2,15 1,90 2,00 2,08 2,18 2,63 2,76 2,82 2,88 2,99 3,09 3,17 3,27 3,37 3,47 Pe (kW) COP 2,36 2,36 2,36 2,36 2,38 2,38 2,38 2,38 2,38 2,38 2,39 2,39 2,39 2,39 1,93 2,03 2,12 2,22 2,67 2,81 2,87 2,93 3,04 3,14 3,22 3,32 3,43 3,53 HEATING MODE TAE WATER TEMPERATURE PRODUCED °C 30 10.2. ANL 025H 230V/1/50Hz | 400V/3N/50Hz) Hea ng capacity - total input power TAE WATER TEMPERATURE PRODUCED °C -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 Ph (kW) Pe (kW) 4,41 4,66 4,91 5,15 5,39 5,62 5,77 6,86 7,27 7,46 7,65 8,00 8,34 8,68 9,02 9,38 9,77 1,55 1,55 1,55 1,55 1,55 1,55 1,55 1,55 1,55 1,57 1,57 1,57 1,57 1,57 1,57 1,57 1,58 35 COP Ph (kW) Pe (kW) 2,84 3,00 3,16 3,31 3,47 3,62 3,71 4,42 4,68 4,77 4,89 5,11 5,33 5,55 5,76 5,99 6,20 4,32 4,56 4,79 5,00 5,23 5,44 5,74 6,74 7,12 7,30 7,47 7,80 8,12 8,42 8,74 9,07 9,43 1,81 1,81 1,80 1,81 1,81 1,81 1,81 1,81 1,81 1,81 1,82 1,82 1,82 1,82 1,82 1,82 1,82 Hea ng capacity Total Input Power External Air temperature 40 COP Ph (kW) Pe (kW) 2,39 2,52 2,66 2,76 2,89 3,01 3,17 3,73 3,94 4,04 4,11 4,29 4,46 4,63 4,80 4,98 5,18 4,44 4,65 4,87 5,08 5,28 5,53 6,62 6,98 7,15 7,32 7,62 7,90 8,19 8,47 8,77 9,09 1,95 1,95 1,95 1,95 1,96 1,96 1,96 1,96 1,96 1,96 1,98 1,98 1,98 1,98 1,98 1,98 45 50 COP Ph (kW) Pe (kW) COP Ph (kW) 2,27 2,38 2,49 2,60 2,69 2,82 3,37 3,55 3,64 3,72 3,86 4,00 4,14 4,29 4,44 4,60 4,52 4,73 4,93 5,14 5,39 5,14 6,84 7,00 7,15 7,43 7,69 7,95 8,21 8,48 8,77 2,11 2,11 2,11 2,11 2,11 2,11 2,12 2,12 2,12 2,12 2,13 2,13 2,13 2,13 2,13 2,14 2,24 2,34 2,44 2,55 2,44 3,23 3,30 3,37 3,50 3,61 3,73 3,85 3,98 4,12 4,57 4,80 5,01 5,25 6,35 6,67 6,82 6,97 7,23 7,46 7,69 7,93 8,17 8,43 ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 9.22. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 25 UK ANL-ANLH 020-200 10.4. ANL 030H 230V/1/50Hz | 400V/3N/50Hz) Hea ng capacity - total input power TAE -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Ph (kW) Pe (kW) 5,30 5,60 5,89 6,18 6,46 6,75 6,92 8,24 8,73 8,96 9,19 9,61 10,01 10,42 10,83 11,26 11,72 1,92 1,92 1,92 1,92 1,92 1,92 1,92 1,92 1,92 1,93 1,93 1,93 1,93 1,93 1,93 1,93 1,95 35 COP Ph (kW) Pe (kW) 2,76 2,91 3,07 3,22 3,37 3,51 3,61 4,29 4,54 4,63 4,75 4,97 5,18 5,39 5,60 5,82 6,02 5,19 5,47 5,74 6,00 6,27 6,53 6,88 8,09 8,55 8,77 8,97 9,36 9,74 10,11 10,49 10,88 11,31 2,24 2,24 2,22 2,24 2,24 2,24 2,24 2,24 2,24 2,24 2,25 2,25 2,25 2,25 2,25 2,25 2,25 40 COP Ph (kW) Pe (kW) 2,32 2,45 2,59 2,68 2,81 2,92 3,08 3,62 3,82 3,92 3,99 4,16 4,33 4,49 4,66 4,84 5,03 5,32 5,58 5,84 6,10 6,34 6,64 7,94 8,37 8,58 8,78 9,15 9,48 9,82 10,16 10,53 10,91 2,41 2,41 2,41 2,41 2,43 2,43 2,43 2,43 2,43 2,43 2,44 2,44 2,44 2,44 2,44 2,44 45 COP Ph (kW) Pe (kW) 2,21 2,31 2,42 2,53 2,61 2,73 3,27 3,45 3,53 3,62 3,75 3,88 4,02 4,16 4,31 4,47 5,42 5,68 5,92 6,16 6,46 6,16 8,21 8,40 8,58 8,91 9,23 9,54 9,85 10,17 10,53 2,61 2,61 2,61 2,61 2,61 2,61 2,62 2,62 2,62 2,62 2,63 2,63 2,63 2,63 2,63 50 COP Ph (kW) Pe (kW) COP 2,08 2,18 2,27 2,37 2,48 2,37 3,13 3,21 3,27 3,40 3,50 3,62 3,74 3,86 4,00 5,49 5,76 6,02 6,30 7,61 8,01 8,18 8,36 8,67 8,96 9,23 9,51 9,81 10,12 2,92 2,92 2,92 2,92 2,94 2,94 2,94 2,94 2,94 2,94 2,95 2,95 2,95 2,95 1,88 1,97 2,06 2,16 2,59 2,73 2,79 2,85 2,95 3,05 3,13 3,22 3,33 3,43 Pe (kW) COP 3,55 3,55 3,55 3,55 3,56 3,56 3,56 3,56 3,56 3,56 3,58 3,58 3,58 3,58 1,95 2,05 2,14 2,24 2,70 2,84 2,90 2,96 3,07 3,17 3,25 3,35 3,46 3,57 10.5. ANL 040H 230V/1/50Hz | 400V/3N/50Hz) Hea ng capacity - total input power WATER TEMPERATURE PRODUCED °C TAE HEATING MODE COOLING MODE WATER TEMPERATURE PRODUCED °C 30 -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 Ph (kW) Pe (kW) 6,68 7,06 7,44 7,80 8,16 8,51 8,74 10,39 11,01 11,30 11,59 12,12 12,63 13,15 13,66 14,21 14,79 2,33 2,33 2,33 2,33 2,33 2,33 2,33 2,33 2,33 2,35 2,35 2,35 2,35 2,35 2,35 2,35 2,36 35 COP Ph (kW) Pe (kW) 2,87 3,03 3,19 3,34 3,50 3,65 3,75 4,46 4,72 4,81 4,94 5,16 5,38 5,60 5,82 6,05 6,26 6,55 6,91 7,25 7,57 7,92 8,24 8,69 10,21 10,79 11,06 11,32 11,81 12,29 12,75 13,23 13,73 14,28 2,71 2,71 2,70 2,71 2,71 2,71 2,71 2,71 2,71 2,71 2,73 2,73 2,73 2,73 2,73 2,73 2,73 Hea ng capacity Total Input Power External Air temperature 40 COP Ph (kW) Pe (kW) 2,41 2,55 2,69 2,79 2,92 3,04 3,20 3,76 3,98 4,08 4,15 4,33 4,50 4,67 4,85 5,03 5,23 6,72 7,04 7,37 7,69 8,00 8,38 10,02 10,57 10,82 11,08 11,54 11,97 12,40 12,82 13,28 13,76 2,93 2,93 2,93 2,93 2,95 2,95 2,95 2,95 2,95 2,95 2,96 2,96 2,96 2,96 2,96 2,96 45 50 COP Ph (kW) Pe (kW) COP Ph (kW) 2,29 2,40 2,51 2,63 2,72 2,84 3,40 3,59 3,67 3,76 3,89 4,04 4,18 4,33 4,48 4,64 6,84 7,16 7,47 7,78 8,16 7,78 10,36 10,60 10,82 11,25 11,64 12,04 12,43 12,84 13,28 3,16 3,16 3,16 3,16 3,16 3,16 3,18 3,18 3,18 3,18 3,20 3,20 3,20 3,20 3,20 2,16 2,26 2,36 2,46 2,58 2,46 3,26 3,33 3,40 3,54 3,64 3,77 3,89 4,02 4,16 6,92 7,27 7,59 7,95 9,61 10,10 10,33 10,55 10,94 11,30 11,64 12,00 12,38 12,77 ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 10.3. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors 26 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 10.7. ANL 050H 400V/3N/50Hz) Hea ng capacity - total input power Pe (kW) 8,83 9,33 9,82 10,30 10,77 11,25 11,54 13,73 14,54 14,93 15,31 16,01 16,69 17,36 18,04 18,76 19,53 3,15 3,15 3,15 3,15 3,15 3,15 3,15 3,15 3,15 3,17 3,17 3,17 3,17 3,17 3,17 3,17 3,20 COP Ph (kW) Pe (kW) 2,80 2,96 3,12 3,27 3,42 3,57 3,66 4,36 4,61 4,70 4,82 5,04 5,26 5,47 5,68 5,91 6,11 8,65 9,12 9,57 10,00 10,45 10,88 11,47 13,48 14,25 14,61 14,95 15,60 16,24 16,85 17,48 18,13 18,85 3,67 3,67 3,65 3,67 3,67 3,67 3,67 3,67 3,67 3,67 3,69 3,69 3,69 3,69 3,69 3,69 3,69 40 COP Ph (kW) Pe (kW) 2,36 2,49 2,63 2,73 2,85 2,97 3,13 3,67 3,88 3,98 4,05 4,23 4,40 4,56 4,73 4,91 5,11 8,87 9,30 9,73 10,16 10,57 11,06 13,23 13,95 14,29 14,63 15,24 15,81 16,37 16,94 17,55 18,18 3,96 3,96 3,96 3,96 3,98 3,98 3,98 3,98 3,98 3,98 4,01 4,01 4,01 4,01 4,01 4,01 45 COP Ph (kW) Pe (kW) 2,24 2,35 2,46 2,56 2,65 2,78 3,32 3,50 3,59 3,67 3,80 3,94 4,09 4,23 4,38 4,54 9,03 9,46 9,87 10,27 10,77 10,27 13,68 14,00 14,29 14,86 15,38 15,90 16,42 16,96 17,55 4,28 4,28 4,28 4,28 4,28 4,28 4,30 4,30 4,30 4,30 4,32 4,32 4,32 4,32 4,32 COOLING MODE -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Ph (kW) 35 50 COP Ph (kW) Pe (kW) COP 2,11 2,21 2,31 2,40 2,52 2,40 3,18 3,26 3,32 3,46 3,56 3,68 3,80 3,92 4,06 9,15 9,60 10,03 10,50 12,69 13,35 13,64 13,93 14,45 14,93 15,38 15,85 16,35 16,87 4,80 4,80 4,80 4,80 4,82 4,82 4,82 4,82 4,82 4,82 4,84 4,84 4,84 4,84 1,91 2,00 2,09 2,19 2,63 2,77 2,83 2,89 3,00 3,10 3,18 3,27 3,38 3,48 HEATING MODE TAE WATER TEMPERATURE PRODUCED °C 30 10.8. ANL 070H 400V/3N/50Hz) Hea ng capacity - total input power TAE WATER TEMPERATURE PRODUCED °C -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 35 40 45 50 Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP 10,90 11,52 12,13 12,73 13,32 13,90 14,26 16,96 17,97 18,45 18,91 19,78 20,62 21,45 22,30 23,19 24,14 3,74 3,74 3,74 3,74 3,74 3,74 3,75 3,75 3,76 3,76 3,77 3,77 3,78 3,78 3,78 3,79 3,79 2,91 3,08 3,24 3,40 3,56 3,72 3,80 4,52 4,78 4,91 5,02 5,25 5,46 5,67 5,90 6,12 6,37 10,69 11,26 11,82 12,37 12,91 13,45 14,02 16,65 17,61 18,05 18,48 19,29 20,06 20,82 21,60 22,41 23,29 4,33 4,33 4,33 4,33 4,33 4,33 4,34 4,34 4,35 4,34 4,35 4,36 4,36 4,37 4,37 4,37 4,37 2,47 2,60 2,73 2,86 2,98 3,11 3,23 3,84 4,05 4,16 4,25 4,42 4,60 4,76 4,94 5,13 5,33 10,98 11,51 12,03 12,55 13,06 13,68 16,35 17,26 17,68 18,07 18,82 19,53 20,23 20,93 21,67 22,47 4,60 4,60 4,60 4,60 4,61 4,61 4,62 4,62 4,63 4,63 4,63 4,64 4,64 4,65 4,65 4,65 2,39 2,50 2,61 2,73 2,83 2,97 3,54 3,74 3,82 3,90 4,06 4,21 4,36 4,50 4,66 4,83 11,17 11,69 12,20 12,71 13,31 16,04 16,90 17,30 17,66 18,35 19,00 19,63 20,27 20,94 21,67 4,87 4,88 4,88 4,88 4,89 4,89 4,90 4,90 4,90 4,91 4,91 4,92 4,92 4,92 4,92 2,29 2,40 2,50 2,60 2,72 3,28 3,45 3,53 3,60 3,74 3,87 3,99 4,12 4,26 4,40 11,31 11,85 12,38 12,98 15,68 16,49 16,86 17,21 17,85 18,44 19,01 19,59 20,19 20,85 5,46 5,47 5,47 5,47 5,48 5,49 5,49 5,49 5,50 5,50 5,51 5,51 5,51 5,51 2,07 2,17 2,26 2,37 2,86 3,00 3,07 3,13 3,25 3,35 3,45 3,56 3,66 3,78 Hea ng capacity Total Input Power External Air temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 10.6. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 27 UK 10.10. ANL 080H 400V/3N/50Hz) Hea ng capacity - total input power TAE WATER TEMPERATURE PRODUCED °C -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 30 Ph (kW) Pe (kW) 13,99 14,79 15,57 16,34 17,09 17,83 18,30 21,76 23,06 23,68 24,27 25,39 26,46 27,53 28,62 29,76 30,97 4,81 4,81 4,81 4,81 4,81 4,81 4,82 4,82 4,83 4,83 4,85 4,85 4,86 4,86 4,86 4,87 4,87 35 COP Ph (kW) Pe (kW) 2,91 3,08 3,24 3,40 3,55 3,71 3,79 4,51 4,77 4,90 5,01 5,24 5,44 5,66 5,89 6,11 6,36 13,71 14,45 15,17 15,87 16,57 17,26 17,99 21,37 22,59 23,16 23,71 24,75 25,74 26,72 27,72 28,76 29,89 5,57 5,57 5,57 5,57 5,57 5,57 5,58 5,58 5,59 5,58 5,59 5,61 5,61 5,62 5,62 5,62 5,62 40 COP Ph (kW) Pe (kW) 2,46 2,60 2,72 2,85 2,98 3,10 3,22 3,83 4,04 4,15 4,24 4,42 4,59 4,76 4,93 5,12 5,32 14,09 14,77 15,43 16,10 16,76 17,55 20,98 22,15 22,69 23,19 24,15 25,06 25,96 26,85 27,81 28,83 5,91 5,91 5,91 5,91 5,93 5,93 5,94 5,94 5,95 5,95 5,95 5,97 5,97 5,98 5,98 5,98 45 COP 2,38 2,50 2,61 2,72 2,83 2,96 3,53 3,73 3,81 3,90 4,06 4,20 4,35 4,49 4,65 4,82 Ph (kW) Pe (kW) 14,33 15,00 15,66 16,31 17,08 20,58 21,69 22,20 22,67 23,55 24,38 25,19 26,01 26,87 27,81 6,26 6,27 6,27 6,27 6,29 6,29 6,30 6,30 6,30 6,31 6,31 6,33 6,33 6,33 6,33 50 Ph (kW) Pe (kW) COP 14,51 15,21 15,89 16,66 20,12 21,16 21,64 22,08 22,91 23,67 24,39 25,14 25,91 26,76 7,02 7,03 7,03 7,03 7,05 7,06 7,06 7,06 7,07 7,07 7,08 7,08 7,08 7,08 2,07 2,16 2,26 2,37 2,86 3,00 3,07 3,13 3,24 3,35 3,44 3,55 3,66 3,78 COP 2,29 2,39 2,50 2,60 2,72 3,27 3,44 3,52 3,60 3,73 3,86 3,98 4,11 4,25 4,40 10.11. ANL 090H 400V/3N/50Hz) Hea ng capacity - total input power WATER TEMPERATURE PRODUCED °C TAE FUNZIONAMENTO A CALDO FUNZIONAMENTO A FREDDO ANL-ANLH 020-200 -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 Ph (kW) Pe (kW) 15,25 16,12 16,97 17,81 18,63 19,44 19,95 23,72 25,14 25,81 26,45 27,67 28,84 30,01 31,19 32,44 33,76 5,23 5,23 5,23 5,23 5,23 5,23 5,24 5,24 5,26 5,26 5,27 5,27 5,28 5,28 5,28 5,30 5,30 35 COP Ph (kW) Pe (kW) 2,92 3,08 3,25 3,41 3,56 3,72 3,80 4,53 4,78 4,91 5,02 5,25 5,46 5,68 5,90 6,12 6,37 14,95 15,75 16,53 17,30 18,06 18,81 19,61 23,29 24,63 25,25 25,85 26,98 28,06 29,12 30,22 31,35 32,58 6,05 6,05 6,05 6,05 6,05 6,05 6,07 6,07 6,08 6,07 6,08 6,10 6,10 6,11 6,11 6,11 6,11 Hea ng capacity Total Input Power External Air temperature 40 COP Ph (kW) Pe (kW) 2,47 2,60 2,73 2,86 2,98 3,11 3,23 3,84 4,05 4,16 4,25 4,43 4,60 4,77 4,95 5,13 5,33 15,36 16,10 16,82 17,56 18,27 19,14 22,87 24,14 24,73 25,28 26,33 27,32 28,30 29,27 30,31 31,43 6,43 6,43 6,43 6,43 6,44 6,44 6,46 6,46 6,47 6,47 6,47 6,49 6,49 6,50 6,50 6,50 45 COP 2,39 2,50 2,62 2,73 2,83 2,97 3,54 3,74 3,82 3,91 4,07 4,21 4,36 4,50 4,66 4,84 Ph (kW) Pe (kW) 15,63 16,35 17,07 17,78 18,62 22,44 23,64 24,20 24,71 25,67 26,58 27,46 28,35 29,29 30,31 6,81 6,82 6,82 6,82 6,84 6,84 6,85 6,85 6,85 6,86 6,86 6,88 6,88 6,88 6,88 50 Ph (kW) Pe (kW) COP 15,82 16,58 17,32 18,16 21,94 23,07 23,58 24,07 24,97 25,80 26,59 27,40 28,24 29,17 7,63 7,65 7,65 7,65 7,66 7,67 7,67 7,67 7,69 7,69 7,70 7,70 7,70 7,70 2,07 2,17 2,26 2,37 2,86 3,01 3,07 3,14 3,25 3,36 3,45 3,56 3,67 3,79 COP 2,30 2,40 2,50 2,61 2,72 3,28 3,45 3,53 3,61 3,74 3,87 3,99 4,12 4,26 4,41 ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 10.9. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors 28 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 FUNZIONAMENTO A CALDO FUNZIONAMENTO A FREDDO 10.13. ANL 100H 400V/3N/50Hz) Hea ng capacity - total input power TAE WATER TEMPERATURE PRODUCED °C -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 30 Ph (kW) Pe (kW) 18,27 19,31 20,33 21,33 22,33 23,31 23,91 28,43 30,13 30,92 31,69 33,15 34,56 35,95 37,38 38,87 40,47 6,56 6,56 6,56 6,56 6,57 6,57 6,58 6,59 6,6 6,61 6,61 6,62 6,63 6,64 6,64 6,65 6,65 35 COP Ph (kW) Pe (kW) 2,79 2,94 3,10 3,25 3,40 3,55 3,63 4,31 4,57 4,68 4,79 5,01 5,21 5,41 5,63 5,85 6,09 17,93 18,88 19,82 20,74 21,65 22,55 23,50 27,91 29,51 30,26 30,98 32,33 33,63 34,90 36,20 37,56 39,04 7,60 7,59 7,59 7,59 7,60 7,60 7,61 7,62 7,63 7,73 7,64 7,65 7,66 7,67 7,67 7,68 7,68 40 COP Ph (kW) Pe (kW) 2,36 2,49 2,61 2,73 2,85 2,97 3,09 3,66 3,87 3,91 4,05 4,23 4,39 4,55 4,72 4,89 5,08 18,40 19,29 20,17 21,04 21,89 22,93 27,41 28,93 29,63 30,30 31,55 32,74 33,91 35,09 36,33 37,67 8,07 8,07 8,08 8,08 8,09 8,09 8,10 8,11 8,12 8,12 8,13 8,14 8,15 8,16 8,16 8,16 45 COP Ph (kW) Pe (kW) 2,28 2,39 2,50 2,60 2,71 2,83 3,38 3,57 3,65 3,73 3,88 4,02 4,16 4,30 4,45 4,62 18,72 19,59 20,45 21,31 22,32 26,89 28,32 29,00 29,60 30,76 31,85 32,91 33,98 35,11 36,33 8,55 8,56 8,56 8,57 8,58 8,59 8,60 8,60 8,61 8,61 8,62 8,63 8,64 8,64 8,64 50 COP Ph (kW) Pe (kW) COP 2,19 2,29 2,39 2,49 2,60 3,13 3,29 3,37 3,44 3,57 3,69 3,81 3,93 4,06 4,20 18,97 19,86 20,75 21,76 26,29 27,64 28,26 28,84 29,92 30,91 31,87 32,84 33,85 34,96 9,59 9,59 9,60 9,61 9,62 9,63 9,63 9,64 9,65 9,66 9,66 9,67 9,67 9,67 1,98 2,07 2,16 2,26 2,73 2,87 2,93 2,99 3,10 3,20 3,30 3,40 3,50 3,62 10.14. ANL 150H 400V/3N/50Hz) Hea ng capacity - total input power TAE WATER TEMPERATURE PRODUCED °C -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 35 40 45 50 Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP Ph (kW) Pe (kW) COP 22,05 23,31 24,54 25,75 26,94 28,13 28,86 34,31 36,36 37,32 38,25 40,01 41,71 46,91 45,11 45,61 48,85 7,71 7,70 7,70 7,71 7,71 7,72 7,73 7,74 7,75 7,76 7,76 7,77 7,78 7,80 7,80 7,80 7,81 2,86 3,03 3,19 3,34 3,49 3,64 3,73 4,43 4,69 4,81 4,93 5,15 5,36 6,01 5,78 5,85 6,25 21,64 22,79 23,92 25,03 26,13 27,22 28,36 33,68 35,62 36,52 37,39 39,02 40,59 42,12 43,69 45,33 47,12 8,93 8,91 8,91 8,91 8,93 8,93 8,94 8,95 8,96 9,08 8,97 8,98 9,00 9,01 9,01 9,02 9,02 2,42 2,56 2,68 2,81 2,93 3,05 3,17 3,76 3,97 4,02 4,17 4,34 4,51 4,68 4,85 5,03 5,22 22,21 23,28 24,34 25,39 26,42 27,67 33,08 34,92 35,76 36,57 38,08 39,51 40,93 42,35 43,85 45,46 9,48 9,48 9,49 9,49 9,50 9,50 9,51 9,52 9,54 9,54 9,55 9,56 9,57 9,58 9,58 9,58 2,34 2,46 2,57 2,68 2,78 2,91 3,48 3,67 3,75 3,83 3,99 4,13 4,28 4,42 4,58 4,74 22,59 23,64 24,68 25,72 26,94 32,45 34,18 35,00 35,72 37,12 38,44 39,72 41,01 42,37 43,85 10,04 10,05 10,05 10,06 10,08 10,09 10,10 10,10 10,11 10,11 10,12 10,14 10,15 10,15 10,15 2,25 2,35 2,46 2,56 2,67 3,22 3,38 3,47 3,53 3,67 3,80 3,92 4,04 4,18 4,32 22,89 23,97 25,04 26,26 31,73 33,36 34,11 34,81 36,11 37,31 38,46 39,63 40,85 42,19 11,26 11,26 11,27 11,29 11,30 11,31 11,31 11,32 11,33 11,34 11,34 11,36 11,36 11,36 2,03 2,13 2,22 2,33 2,81 2,95 3,02 3,07 3,19 3,29 3,39 3,49 3,60 3,72 Hea ng capacity Total Input Power External Air temperature ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 10.12. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors Aermec cod. 6755512_05 6.2011 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 29 UK 10.16. ANL 200H 400V/3N/50Hz) Hea ng capacity - total input power WATER TEMPERATURE PRODUCED °C TAE FUNZIONAMENTO A CALDO FUNZIONAMENTO A FREDDO ANL-ANLH 020-200 -10 -8 -6 -4 -2 0 2 4 6 7 8 10 12 14 16 18 20 Key Ph Pe TAE 30 Ph (kW) Pe (kW) 28,98 30,63 32,25 33,84 35,41 36,97 37,92 45,09 47,79 49,05 50,27 52,59 54,82 57,03 59,29 61,65 64,2 10,15 10,15 10,14 10,15 10,15 10,16 10,18 10,19 10,21 10,21 10,22 10,24 10,25 10,26 10,27 10,28 10,28 35 COP Ph (kW) Pe (kW) 2,86 3,02 3,18 3,33 3,49 3,64 3,72 4,42 4,68 4,80 4,92 5,14 5,35 5,56 5,77 6,00 6,25 28,44 29,95 31,44 32,90 34,34 35,77 37,28 44,27 46,81 48,00 49,14 51,28 53,34 55,36 57,42 59,58 61,93 11,75 11,74 11,74 11,74 11,75 11,75 11,77 11,78 11,80 11,95 11,82 11,83 11,85 11,86 11,86 11,88 11,88 Hea ng capacity Total Input Power External Air temperature 40 COP Ph (kW) Pe (kW) 2,42 2,55 2,68 2,80 2,92 3,04 3,17 3,76 3,97 4,02 4,16 4,33 4,50 4,67 4,84 5,02 5,21 29,19 30,60 31,99 33,37 34,72 36,37 43,48 45,89 47,00 48,06 50,04 51,93 53,79 55,66 57,63 59,75 12,48 12,48 12,50 12,50 12,51 12,51 12,53 12,54 12,56 12,56 12,57 12,59 12,60 12,62 12,62 12,62 45 COP Ph (kW) Pe (kW) 2,34 2,45 2,56 2,67 2,78 2,91 3,47 3,66 3,74 3,83 3,98 4,13 4,27 4,41 4,57 4,73 29,69 31,07 32,44 33,80 35,40 42,65 44,92 46,00 46,95 48,79 50,52 52,20 53,90 55,69 57,63 13,22 13,24 13,24 13,25 13,27 13,28 13,30 13,30 13,32 13,32 13,33 13,35 13,36 13,36 13,36 50 COP Ph (kW) Pe (kW) COP 2,25 2,35 2,45 2,55 2,67 3,21 3,38 3,46 3,53 3,66 3,79 3,91 4,03 4,17 4,31 30,09 31,50 32,91 34,52 41,70 43,84 44,83 45,75 47,46 49,03 50,55 52,09 53,69 55,45 14,83 14,83 14,85 14,86 14,88 14,89 14,89 14,91 14,92 14,94 14,94 14,95 14,95 14,95 2,03 2,12 2,22 2,32 2,80 2,94 3,01 3,07 3,18 3,28 3,38 3,48 3,59 3,71 ATTENTION For intermediate points refer to the diagrams of operating limits (§ 8.3) 10.15. Δt DIFFERENT FROM NOMINAL Δt 5°C) Heating capacity correction factors Total input power correction factors 30 3 0,99 1,01 5 1 1 8 1,01 0,98 10 1,02 0,96 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 11. PRESSURE DROPS AND USEFUL STATIC PRESSURES 11.1. EVAPORATOR | PIPING kPa 7°C 12°C 35 °C Average water temperature 10° C 180 160 08 0-1 00 140 120 For temperatures other than 10 ° C use a table of correction factors 100 0 20 40 5 10 15 20 30 40 50 1,02 1 0,98 0,97 0,95 0,93 0,91 07 0 05 0 020 60 040 025 030 09 0 80 Average water temperature Multiplicative coefficients 15 0 Evaporator water inlet Evaporator water outlet External air temperatures 200 20 0 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000 Water flow rate l/h 11.2. FILTRE kPa 50 1“ 1/2 40 35 30 1“ 1/4 25 filtro ANL 1" 1"¼ 1"½ 020…040 050…090 100…200 20 1“ 15 10 5 0 0 1 2 3 4 5 6 7 8 9 10 Water flow rate l/h 11.3. USEFUL STATIC PRESSURES 11.2.1. USEFUL STATIC PRESSURE WITH STORAGE TANK "A" or PUMPS, "P" kPa kPa 225 11.2.2. USEFUL STATIC PRESSURE WITH STORAGE TANK "A" or PUMPS, "Q" kPa 250 200 175 200 150 150 125 100 100 050 75 070 50 50 080 020 0 0 1000 050 2000 3000 0 070 025 030 040 080 4000 5000 090 6000 water flow rate l/h Aermec cod. 6755512_05 6.2011 100 7000 150 8000 9000 200 100 0 25 150 090 2000 4000 6000 8000 10000 12000 200 10000 water flow rate l/h 31 UK ANL-ANLH 020-200 • • The correc on factors of cooling power and input power take into account the presence of glycol and diverse evapora on temperatures. The pressure drop correc on factor considers the different flow rate resul ng from the applicaon of the water flow rate correc on factor. The water flow rate correc on factor is calculated to keep the same Δt that would be present with the absence of glycol. 2. 3. ΔP (3) ΔP (4) 1.80 1.70 1.60 ΔP (5) 1.50 1.40 1.30 Qw (1) 1.20 Qw (2) 1.10 1.00 Ph 0.99 0.98 Pe 0.97 0.96 0.95 Pc 0.94 External air temperature If you wish to calculate the percentage of glycol on the basis of the external air temperature, enter from the le axis and on reaching the curve draw a ver cal line, which in turn will intercept all the other curves; the points obtained from the upper curves represent the coefficients for the correc on of the cooling capacity and input power, the flow rates and the pressure drops (remember that these coefficients must be mul plied by the nominal value of the size in ques on); while the glycol percentage value recommended to produce desired water temperature is on the lower axis. If you wish to calculate the percentage of glycol on the basis of the temperature of the water produced, enter from the right axis and on reaching the curve draw a ver cal line, which in turn will intercept all the other curves; the points obtained from the upper curves represent the coefficients for the correc on of the cooling capacity and input power, the flow rates and the pressure drops (remember that these coefficients must be mul plied by the nominal value of the size in ques on); while the lower axis recommends the glycol percentage value necessary to produce water at the desired temperature. ΔP (2) 1.90 11.4. HOW TO INTERPRET GLYCOL CURVES 1. ΔP (1) 2.10 2.00 NOTE On the following page an example is given to help graph reading. Using the diagram below it is possible to determine the percentage of glycol required; this percentage can be calculated by taking of the following factors into consideration one: Depending on which fluid is considered (water or air), the graph is interpreted by the right or left side at the crossing point on the curves with the external temperature line or the water produced line. A point from which the vertical line will pass is obtained and this will distinguish both glycol percentage and relative correction coefficients. The curves shown in the diagram summarise a significant number of data, each of which is represented by a specific curve. In order to use these curves correctly it is first necessary to make some initial reflections. 2.20 KEY: Pc Pe Ph DP (1) DP (2) DP (3) DP (4) DP (5) Qw (1) Qw (2) 5 0 5 -5 -10 -6 0 -15 -20 -25 -30 -35 -40 0 5 10 15 20 25 30 35 40 45 50 55 Glycol % Produced water temperature • ETHYLENE GLYCOL SOLUTIONS Corrections factors 12. Corrective factors for cooling capacity Corrective factors of the input power Corrective factors of heating capacity Correction factors for pressure drop av. temp. = -3,5 °C Correction factors for pressure drop av. temp. = 0,5 °C Correction factors for pressure drop av. temp. = 5,5 °C Correction factors for pressure drop av. temp. = 9,5 °C Correction factors for pressure drop av. temp. = 47,5 °C Correction factor of flow rates (evap.) av. temp = 9,5 °C Correction factor of flow rates (cond.) av. temp = 47,5 °C NOTE Although the graph arrives at external air temperatures of -40°C, unit operational limits must be considered. Initial rates for “EXTERNAL AIR TEMPERATURE” and “TEMPERATURE OF PRODUCED WATER”, are not directly related, therefore it is not possible to refer to the curve of one of these rates to obtain corresponding point on the curve of the other rate. 32 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 13. EXPANSION VESSEL CALIBRATION Hmax1 = 55m Standard pre-load pressure value of expansion vessel when empty is 1.5 bar, maximum value is 6 bar. Calibration of the vessel must be regulated using the maximum level difference (H) of the user (see diagram) by using the following formula: H = 12,25m p (calibration) [bar] = H [m] / 10,2 + 0,3. H For example: if level difference (H) is equal to 20m, the calibration value of the vessel will be 2.3 bar. If calibration value obtained from formula is less than 1.5 bar (that is for H < 12.25), keep calibration as standard. Hmin2 KEY (1) Check that highest installation is not higher than 55 metres (2) Ensure that lowest installation can withstand global pressure in that position. 14. RECOMMENDED MINIMUM WATER CONTENT ANL|ANLH Number compressor Recommended minimum water content n° l/kW 020 1 4 025 1 4 030 1 4 040 1 4 050 1 4 070 1 4 080 1 4 090 1 4 100 2 4 150 2 4 200 2 4 WARNING It is recommended to project systems with a high water content see table for minimum levels advised), to limit: 1. The hourly number of inversions between the various functioning modes 2. The water temperature reduction during the defrosting cycles in the winter period Aermec cod. 6755512_05 6.2011 33 UK ANL-ANLH 020-200 15. DESUPERHEATER 15.1. CORRECTION FACTORS Cd 3 2.5 2 1.5 ATTENTION The use of the desuperheater is possible in cooling function; for heat function it must be intercepted. 1 25°C 0.5 20°C 45 °C 40 °C 35 °C 30 °C 0 35 40 45 50 55 60 EXTERNAL AIR TEMPERATURE b.s. The heating capacity obtained from the desuperheater is obtained by multiplying the nominal value for the coefficient (cd). The diagram can be used to derive the correction coefficients as a function of outdoor temperature and the temperature of the water produced at the desuperheater. 65 Temperature of desuperheater produced water ∆t 5° C 15.2. PRESSURE DROPS kPa 90 80 100 ÷ 200 70 60 50 080 ÷ 090 40 070 30 050 20 10 0 0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 Water flow rate l/h Average water temperature Coefficiente correttivo 34 30 1,04 40 1,02 50 1,00 60 0,98 70 0,96 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 16. REFRIGERANT LINES Model lenght line [m] Line gas Ø [mm] Linea liquid Ø [mm] R410A [g/m] ANL 020 C 0-10 10-20 20-30 12,7 12,7 12,7 9,52 9,52 9,52 70 70 70 ANL 025 C 0-10 10-20 20-30 12,7 12,7 12,7 9,52 9,52 9,52 70 70 70 ANL 030 C 0-10 10-20 20-30 12,7 12,7 15,88 12,7 12,7 12,7 120 120 130 ANL 040 C 0-10 10-20 20-30 12,7 15,88 15,88 12,7 12,7 12,7 120 130 130 ANL 050 C 0-10 10-20 20-30 15,88 15,88 18 15,88 15,88 15,88 190 190 190 ANL 070 C 0-10 10-20 20-30 15,88 18 18 15,88 15,88 15,88 190 190 190 ANL 080 C 0-10 10-20 20-30 15,88 18 22 15,88 15,88 15,88 190 190 210 ANL 090 C 0-10 10-20 20-30 18 22 22 15,88 15,88 15,88 190 210 210 ANL 100 C 0-10 10-20 20-30 28,00 28,00 28,00 15,88 15,88 15,88 230 230 230 ANL 150 C 0-10 10-20 20-30 28,00 28,00 28,00 15,88 15,88 15,88 230 230 230 ANL 200 C 0-10 10-20 20-30 35,00 35,00 35,00 15,88 18,00 18,00 260 310 310 Aermec cod. 6755512_05 6.2011 35 UK ANL-ANLH 020-200 17. SOUND DATA Sound power Aermec determines sound power values in agreement with the 9614-2 Standard, in compliance with that requested by Eurovent certification Sound pressure Sound pressure measured in free field conditions with reflective surface (directivity factor Q=2) at 10mt distance from external surface of unit, in compliance with ISO 3744 regulations. ① COOLING MODE Water input temperature Water output temperature External air temperature 36 7°C 12°C 35 °C ANL/ ANLH 020 025 030 040 050 070 080 090 100 150 200 Total sound level Pressure. dB(A) dB(A) 10 m 1m Pot. dB(A) 61,0 61,0 68,0 68,0 69,0 69,0 69,0 68,0 76,0 77,0 78,0 30,0 30,0 37,0 37,0 38,0 38,0 38,0 37,0 44,0 45,0 46,0 46,8 46,8 53,6 53,6 53,9 54,0 54,0 53,0 60,0 61,0 62,0 125 250 Octave band [Hz] 500 1000 2000 4000 8000 Sound power for centre of band [dB] (A) frequence 70,0 70,0 75,4 75,4 76,5 76,5 73,8 74,0 61,2 62,4 63,6 64,1 64,1 69,6 69,6 69,2 69,2 69,4 68,5 66,0 67,3 68,4 59,1 59,1 64,0 64,0 64,8 64,8 65,8 64,5 71,4 72,2 73,4 52,7 52,7 63,5 63,5 64,6 64,6 64,1 62,2 72,0 72,7 73,5 46,7 46,7 56,7 56,7 58,9 58,9 59,5 59,3 68,9 69,7 70,5 41,0 41,0 51,2 51,2 53,7 53,7 56,5 56,4 60,5 61,5 62,5 35,7 35,7 44,6 44,6 46,1 46,1 51,0 48,1 48,6 49,6 50,6 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 18. PARAMETER CALIBRATION OF SAFETY AND CONTROL SET COOLING Water temperature inlet (cooling mode) min -6 °C Max. 18 °C defoult 7° C SET HEATING Water temperature inlet (heating mode) 35 °C 55 °C 48 °C -9 °C 4 °C 3 °C 3 °C 10 °C 5 °C DEFROSTING MODE TOTAL DIFFERENTIAL Banda proportional temperature within which the compressors are turned on and off 020 BREAKERS FANS A 2 MTV1 A MTV2 BREAKERS COMPRESSOR A 230V 16 MTC1 A 2,2 400V/3N MTC2 A HIGH PRESSURE SWITCH PA bar HIGH PRESSURE TRANSDUCER TAP bar LOW PRESSURE TRANSDUCER TBP bar 025 030 040 050 070 ONLY COOLING VERSION 080 090 100 150 200 2 - 2 - 2 - 2 2 2 2 2 2 2 2 2 2 2 2 2 2 16 2,2 - 20 6 - 25 8 - 10 - 13 - 15 - 16 - 10 10 12,5 12,5 15 15 42 42 42 42 42 42 42 42 42 39 39 39 39 39 39 39 39 39 4 4 4 4 4 4 4 4 4 HEAT PUMP VERSION BREAKERS VENTILATORI MTV1 A 2 MTV2 A BREAKERS COMPRESSOR A 230V 16 MTC1 A 2,2 400V/3N MTC2 A HIGH PRESSURE SWITCH PA bar 42 LOW PRESSURE SWITCH 2 PA bar vers."°" LOW PRESSURE TRANSDUCER TAP bar vers."°" 4 2 TAP bar vers."H" HIGH PRESSURE TRANSDUCER TBP bar 40 Aermec cod. 6755512_05 6.2011 2 - 2 - 2 - 2 2 2 2 2 2 2 2 2 2 2 2 2 2 16 2,2 - 20 6 - 25 8 - 10 - 13 - 15 - 16 - 10 10 12,5 12,5 15 15 42 42 42 42 42 42 42 42 42 42 2 2 2 2 2 2 2 2 2 2 4 2 4 2 4 2 4 2 4 2 4 2 4 2 4 2 4 2 4 2 40 40 40 40 40 40 40 40 40 40 37 UK ANL-ANLH 020-200 TECHNICAL SECTION Standards and Directives respected on designing and constructing the unit: SAFETY 1. Machinery Directive 2006/42/CE 2. Low Voltage Directive LVD 2006/95/CE 3. Electromagnetic compatibility Directive EMC 2004/108/CE 4. Pressure Equipment Directive PED 97/23/CE, EN 378, 5. UNI12735, UNI14276 INSTALLATION SECTION ELECTRIC PART 1. CEI EN 60335 2 40, 2. CEI EN 61000 6 1/2/3/4 20. AERMEC ANLs are constructed according to the recognised technical standards and safety regulations. They have been designed for air conditioning and the production of domestic hot water (DHW) and must be destined to this use compatibly with their performance features. Any contractual or extracontractual liability of the Company is excluded for injury/damage to persons, animals or objects owing to installation, regulation and maintenance errors or improper use. All uses not expressly indicated in this manual are prohibited CERTIFICATIONS EUROVENT USER SECTION REFRIGERANT GAS Questa unità contiene gas floururali a effetto serra coperti dal protocollo di Kyoto. Le operazioni di manutenzione e smaltimento devono essere eseguite solo da personale qualificato, nel rispetto delle norme vigenti damage caused. The validity of the warranty shall be void in the event of failure to comply with the above-men oned indica ons. 20.2. WARNINGS REGARDING SAFETY AND INSTALLATION STANDARDS 1. 20.1. PRESERVATION OF THE DOCUMENTA TION 1. ACUSTIC PART 1. ISO DIS 9614/2 intensimetric method PROTECTION RATING IP24 GENERAL WARNINGS FOR THE INSTALLER 2. 3. 4. 5. The instruc ons along with all the related documenta on must be given to the user of the system, who assumes the responsibility to conserve the instruc ons so that they are always at hand in case of need. LRead this sheet carefully; the execu on of all works must be performed by qualified staff, according to Standards in force ion this subject in different countries. The appliance must be installed in such a way as to enable maintenance and/or repairs to be carried out. The appliance warranty does not cover the costs for ladder trucks, scaffolding, or other eleva on systems that may become necessary for carrying out servicing under warranty. Do not modify or tamper with the chiller as dangerous situa ons can be created and the manufacturer will not be liable for any 2. The chiller must be installed by a qualifi ed and suitably trained technician, in compliance with the national legislation in force in the country of destination. AERMEC will not assume any responsibility for damage due to failure to follow these instructions. Before beginning any operation, READ THESE INSTRUCTIONS CAREFULLY AND CARRY OUT THE SAFETY CHECKS TO REDUCE ALL RISK OF DANGER TO A MINIMUM. All the staff involved must have thorough knowledge of the operations and any dangers that may arise at the moment in which the installation operations are carried out. DANGER! The refrigerant circuit is under pressure. Moreover, very high temperatures an be reached. The appliance may only be pened by an SAT service technician or by a qualified technician. Work on the cooling circuit may only be carried out by a qualified refrigeration technician. R410A REFRIGERANT GAS The cooler comes supplied with a ufficient quantity of R410A refrigerant gas. This refrigerant is chlorine-free and does not damage the ozone layer. R410A is not flammable. However, all maintenance operations must be carried out exclusively by a specialised technician using suitable protective equipment DANGER OF ELECTRICAL DISCHARGE! Before opening the heat pump, completely disconnect the appliance from the power mains. 38 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 21. SELECTION AND PLACE OF INSTALLATION Before beginning installation consent with client and pay attention to the following recommendations: 1. The support surface must be capable of supporting the unit weight; 2. The safety differences between the unit and ther appliances or structures must be scrupulously respected so that the inlet and outlet AIR from the fans is free to circulate; 3. The unit must be installed by an enabled technician in compliance with the national legislation in force in the country of destination, respecting the minimum technical spaces in order to allow maintenance. Fix the unit checking that it is level. Make sure that the hydraulic and electric part can be easily reached. In case of installation in places where gusts of wind are frequent, fix the unit suitably using tie-rods. Envision the installation of the condensate drain tray in the versions where envisioned (as ACCESSORY). 150 200 21.2.1. POSITIONING Before handling the unit, verify the lifting capacity of the machines used, respecting the indications given on the packaging. To handle the machine (ANL 020-090) on horizontal surfaces, se fork lift trucks or similar in the most appropriate manner, paying attention to the distribution of the unit weight. In the case of lifting (ANL 100-200),insert pipes into the holes supplied on the base (NOT SUPPLIED).The length of the pipes must be such to allow positioning of the lifting belts and relative safety pins. Position the unit in the place indicated by the customer, placing a rubber covering between the base and the support (min. thickness 10 mm.) or alternatively anti-vibrating feet (ACCESSORIES). For further information, refer to the dimensional tables FREE FIEL 500 D ANL 020 025 030 040 200 300 500 800 FREE FIEL D ANL 050 080 090 800 800 ANL 100 150 200 Aermec cod. 6755512_05 6.2011 1100 39 UK ANL-ANLH 020-200 22. DIMENSIONS 22.1. ANL 020 ÷ 025 version °|P|H|HP ANL MOD. VERS. 020 020 025 025 310 °/H °/H °/H °/H WEIGHT ° P ° P 75 77 75 77 CENTER OF GRAVITY Gy Gx 174 177 174 177 A 325 326 325 326 B C D % % % % 32,1% 31,6% 32,1% 31,6% 31,8% 32,2% 31,8% 32,2% 18,2% 17,9% 18,2% 17,9% 18,0% 18,3% 18,0% 18,3% KIT VT 9 9 9 9 900 868 OUT 1”¼ OUT 1”¼ 194 97 IN1”¼ IN 1”¼ 69 354 113 D B 650 122,50 D C 122,50 895 330 B Gy Ø9 C Gx 40 A A Mod. A B C D VT9 40 30 23 M8 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.2. ANL 030 ÷ 040 version °|P|H|HP ANL MOD. VERS. 030 030 040 040 °/H °/H °/H °/H WEIGHT ° P ° P 86 91 86 91 CENTER OF GRAVITY Gy Gx 183 180 183 180 336 327 336 327 A B C D KIT VT % % % % 30% 31% 30% 31% 33% 33% 33% 33% 18% 18% 18% 18% 19% 19% 19% 19% 9 9 9 9 900 310 1000 OUT 1”¼ OUT 1”¼ 194 97 IN1”¼ IN 1”¼ 69 354 113 D 122,50 895 B 122,50 650 C D 330 B Gy Ø9 C A A Gx Aermec cod. 6755512_05 6.2011 Mod. A B C D VT9 40 30 23 M8 41 UK ANL-ANLH 020-200 22.3. ANL 050 ÷ 090 version °|P|H|HP ANL MOD. VERS. WEIGHT 50 50 70 70 80 80 90 90 384 °/H °/H °/H °/H °/H °/H °/H °/H ° P ° P ° P ° P 120 127 120 127 156 163 156 163 CENTER OF GRAVITY Gy Gx 213 212 213 212 217 216 217 216 447 436 447 436 453 444 453 444 A B C D KIT VT % % % % 30,3% 31,0% 30,3% 31,0% 30,3% 31,0% 29,5% 30,0% 29,8% 30,1% 29,8% 30,1% 29,8% 30,1% 30,1% 30,3% 20,1% 19,8% 20,1% 19,8% 20,1% 19,8% 20,0% 19,8% 19,8% 19,2% 19,8% 19,2% 19,8% 19,2% 20,4% 19,9% 9 9 9 9 9 9 9 9 1124 1252 OUT 1”¼ OUT 1”¼ 190 100 IN1”¼ 428 IN1”¼ 67 229 D 1118 B 660 229 D 403 Ø 11 A B C C Gy Gx A 42 Mod. A B C D VT9 40 30 23 M8 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.4. ANL 100 ÷ 200 versione °|P|A|N|Q / H|HP|HA|HN|HQ ANL VERS. ANL100 ANL100H ANL150 ANL150H ANL 200 ANL 200H 1800 1750 ° P A ° P A ° P A ° P A ° P A ° P A WEIGHT CENTER OF GRAVITY Gy Gx 381 382 382 381 381 381 383 383 383 382 382 382 383 383 383 383 383 383 270 288 338 295 313 363 293 314 364 322 343 393 329 350 400 358 379 429 620 659 659 604 640 640 650 693 693 630 671 671 600 641 641 586 626 626 A B C D KIT % % % % 31,7% 30,6% 29,5% 32,2% 31,2% 30,1% 30,8% 29,6% 28,7% 31,4% 30,3% 29,3% 32,1% 31,0% 30,0% 32,6% 31,5% 30,5% 32,8% 31,7% 30,4% 33,3% 32,2% 30,9% 32,1% 30,8% 29,7% 32,6% 31,4% 30,3% 33,6% 32,4% 31,2% 33,9% 32,8% 31,6% 17,4% 18,5% 19,8% 17,0% 18,0% 19,2% 18,2% 19,4% 20,4% 17,7% 18,8% 19,9% 16,8% 17,9% 19,1% 16,4% 17,5% 18,6% 18,0% 19,1% 20,4% 17,5% 18,6% 19,8% 18,9% 20,2% 21,2% 18,3% 19,5% 20,5% 17,5% 18,7% 19,8% 17,1% 18,2% 19,3% VT 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 15 1345 750 Ø 34 IN1”¼ 515 102 OUT 1”¼ 138 1590 80 D B C A D Gy B 750 C 20 40 80 Ø9 Gx Aermec cod. 6755512_05 6.2011 A Mod. A B C D VT15 50 30 28,5 M10 43 UK ANL-ANLH 020-200 22.5. ANL 020 ÷ 025 version °A|HA ANL 020 025 384 MOD. VERS. °/H °/H WEIGHT A A 99 77 CENTER OF GRAVITY Gy Gx 177 177 326 326 A B C D % % % % 35,6% 31,6% 31,5% 32,2% 17,4% 17,9% 15,5% 18,3% KIT VT 9 9 1124 868 OUT 1”¼ OUT 1”¼ 190 100 IN1”¼ 428 IN1”¼ 67 1118 229 660 229 D B 408 Gy A Ø 11 C C D B Gx A 44 Mod. A B C D VT9 40 30 23 M8 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.6. ANL 030 ÷ 040 version °A|HA ANL 030 040 384 MOD. VERS. °/H °/H WEIGHT A A 103 103 CENTER OF GRAVITY Gy Gx 180 180 A 327 327 B C D KIT VT % % % % 39% 39% 32% 32% 16% 16% 13% 13% 9 9 1124 1015 OUT 1”¼ OUT 1”¼ 190 100 IN1”¼ 428 IN1”¼ 67 1118 229 660 229 D B 408 Gy A Ø 11 C C D B Gx A Aermec cod. 6755512_05 6.2011 Mod. A B C D VT9 40 30 23 M8 45 UK ANL-ANLH 020-200 22.7. ANL 050 ÷ 090 version °A|°Q |HA |HQ ANL MOD. VERS. WEIGHT 50 70 80 90 °/H °/H °/H °/H A A A A CENTER OF GRAVITY 147 147 147 183 A B C D KIT VT Gy Gx % % % % 212 212 212 216 436 436 436 444 32,2% 32,2% 32,2% 31,1% 31,3% 31,3% 31,3% 31,3% 18,5% 18,5% 18,5% 18,8% 18,0% 18,0% 18,0% 18,9% 15 15 15 15 1165 550 1281 IN1”¼ 340 210 40 Ø 34 480 OUT 1”¼ 214 48,5 1162 B 9 D 25,3 70 4,3 70 D C 550 Gy B A C Ø9 A Gx 46 Mod. A B C D VT15 50 30 28,5 M10 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.8. ANL 020 ÷ 025 version C ATTENTION For the distribution of the weights, refer to verision "° | H" 310 900 Ø 9.52 liquid L 196 868 Ø 15.88 gas G holes for electrical cables 354 83 143 895 122,50 122,50 650 D B 330 Gy D Ø9 A C C B Gx A Aermec cod. 6755512_05 6.2011 Mod. A B C D VT9 40 30 23 M8 47 UK ANL-ANLH 020-200 22.9. ANL 040 ÷ 050 version C ATTENTION For the distribution of the weights, refer to verision "° | H" 310 900 1000 Ø 15.88 G gas 194.5 Ø 12.70 Lliquid holes for electrical cables 354 70 130 895 122,50 122,50 650 D B Ø9 A B C C Gy 330 D Gx A 48 Mod. A B C D VT9 40 30 23 M8 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.10. ANL 070 ÷ 090 version C ATTENTION For the distribution of the weights, refer to verision "° | H" 384 1124 1252 Ø 22 G Ø 15,88 L 194,50 190 100 428 1118 229 229 660 D 70,5 130,5 B D Gy C 403 A B C Ø 11 Gx Aermec cod. 6755512_05 6.2011 A Mod. A B C D VT9 40 30 23 M8 49 UK ANL-ANLH 020-200 22.11. ANL 100 ÷ 200 version C ATTENTION For the distribution of the weights, refer to verision "° | H" 1345 750 Ø 28 G Ø 34 515 102 Ø 15.88 L 138 1590 80 D 20 D B C A Gy B 750 C 40 80 Ø9 Gx 50 A Mod. A B C D VT15 50 30 28,5 M10 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 22.12. ANL 050 ÷ 090 version D|DA / HD|HDA 326 1165 OUT 1” 540 74 550 1281 IN1” 340 210 IN1”¼ 40 OUT 1”¼ Ø 34 480 214 48,5 1162 B D 9 D 25,3 70 4,3 70 B Gy C 550 C A Ø9 A Gx Mod. Aermec cod. 6755512_05 6.2011 A B C D VT9 D|HD 40 30 23 M8 VT15 DA|HDA 50 30 28,5 M10 51 UK ANL-ANLH 020-200 22.13. ANL 100 ÷ 200 version D|DA / HD|HDA 1800 1750 692 1158 OUT 1” 1345 750 IN1” 249 Ø 34 IN1”¼ 515 102 OUT 1”¼ 138 1590 80 20 40 80 D D Gy B 750 C B Ø9 C A Gx 52 A Mod. A B C D VT15 50 30 28,5 M10 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 23. HYDRAULIC CIRCUITS OF PRINCIPLE 23.1. HYDRAULIC CIRCUIT FOR INTERNAL AND EXTERNAL ANL “°” | "H" standard HYDRAULIC COMPONENTS ANL 4 HYDRAULIC COMPONENTS SUGGESTED EXTERNAL UNIT 8 1 5 11 7 8 6 3 13 11 12 PD 42 8 13 5 9 ATTENTION The choice and the installation of components external to the ANL °|H èup to the installer, who must operate according to the rules of good technical design and in compliance with the regulations in force in the country of destination. ATTENTION The hydraulic pipes connecting to the machine must be properly sized to the actual flow of water required by the system in operation. The water flow to the exchanger must always be constant. 11 10 1 2 3 4 8 5 6 7 9 10 11 12 13 COMPONENTS SUPPLIED AS STANDARDS Water filter Pressure switch Plate exchanger Porbe water temperature (IN/OUT) Air Vent NOT SUGGESTED COMPONENTS PROVIDED TO LOAD INSTALLER anti vibration joints Safety valve Expansion tank Storage tank Drain cock Ball Stop Pump Manometer Aermec cod. 6755512_05 6.2011 ATTENTION Carefully wash the plant, before connecting the unit. This allows cleaning to remove any residue such as weld spatter, slag, rust or other impurities from the pipes. These substances may otherwise accumulate in and cause a machine malfunction. The connecting pipes should be supported so as not to weigh, with their weight on the unit 53 UK ANL-ANLH 020-200 23.2. HYDRAULIC CIRCUIT FOR INTERNAL AND EXTERNAL ANL “°P|°N” / "HP|HN" HYDRAULIC COMPONENTS ANL 4 7 12 HYDRAULIC COMPONENTS SUGGESTED EXTERNAL UNIT 1 5 11 7 3 13 8 6 8 PD 4 8 5 ATTENTION The choice and the installation of components external to the ANL°P|N /ANLHP|HN up to the installer, who must operate according to the rules of good technical design and in compliance with the regulations in force in the country of destination. 13 11 9 ATTENTION The hydraulic pipes connecting to the machine must be properly sized to the actual flow of water required by the system in operation. The water flow to the exchanger must always be constant. 10 1 2 3 4 6 7 8 12 COMPONENTS SUPPLIED AS STANDARDS Water filter Pressure switch Plate exchanger Porbe water temperature (IN/OUT) Safety valve Expansion tank Air Vent Pump 5 7 9 10 11 13 NOT SUGGESTED COMPONENTS PROVIDED TO LOAD INSTALLER anti vibration joints Expansion tank (if necessary) Storage tank Drain cock Ball Stop Manometer 54 ATTENTION Carefully wash the plant, before connecting the unit. This allows cleaning to remove any residue such as weld spatter, slag, rust or other impurities from the pipes. These substances may otherwise accumulate in and cause a machine malfunction. The connecting pipes should be supported so as not to weigh, with their weight on the unit Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 23.3. HYDRAULIC CIRCUIT FOR INTERNAL AND EXTERNAL ANL “°A|°Q” / "HA|HQ" HYDRAULIC COMPONENTS ANL 4 HYDRAULIC COMPONENTS SUGGESTED EXTERNAL UNIT 8 7 12 1 5 13 11 ATTENTION The choice and the installation of components external to the ANL°A|Q /ANLHA|HQ up to the installer, who must operate according to the rules of good technical design and in compliance with the regulations in force in the country of destination. 8 3 PD 4 13 9 6 7 5 11 ATTENTION The hydraulic pipes connecting to the machine must be properly sized to the actual flow of water required by the system in operation. The water flow to the exchanger must always be constant. 10 1 2 3 4 6 7 8 9 12 COMPONENTS SUPPLIED AS STANDARDS Water filter Pressure switch / Flow switch dor (ANL°A|HA 020…040) Scambiatore a piastre Porbe water temperature (IN/OUT) Safety valve Expansion tank Air Vent Storage tank Pump 5 7 10 11 13 NOT SUGGESTED COMPONENTS PROVIDED TO LOAD INSTALLER anti vibration joints Expansion tank (if necessary) Drain cock Ball Stop Manometer Aermec cod. 6755512_05 6.2011 ATTENTION Carefully wash the plant, before connecting the unit. This allows cleaning to remove any residue such as weld spatter, slag, rust or other impurities from the pipes. These substances may otherwise accumulate in and cause a machine malfunction. The connecting pipes should be supported so as not to weigh, with their weight on the unit 55 UK ANL-ANLH 020-200 23.4. EXAMPLE PLANT FOR THE PRODUCTION OF DHW ANL50H ° WITH ACCESSORY VMF ACS 2 1 M 3 8 5 6 7 4 1 2 3 4 5 ANL050H° VMF SYSTEM FOR THE PRODUCTION AND MANAGEMENT ACS (ACCESSORIES) E5 (White or black) VMF-ACS3KTN | 6KTN |8KTN management of: - Three-way valve - Probe DHW Storage tank - Electrical heater DHW Storage tank (cycle for integrate and legionella) Three-way valve (not supplied) Electrical heater DHW Storage tank (not supplied) (cycle for integrate and legionella) RS-485 interface (ACCESSORIES MODU-485A) 6 DHW Storage tank (not supplied) 7 Electrical heater (ACCESSORIES BSKW) 8 Storage tank (not supplied) 9 For more information, refer to the documentation for the system VMF available at: www . aermec . com 10 The accessory is required because the chiller system communicates with the VMF 56 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 24. ELECTRIC CONNECTIONS The ANL|ANLH chillers are completely wired at the factory and only require connection to the electrical mains, downstream from a unit switch, according to that envisioned by the Standards in force on this subject in the country of installation. It s also advised to check that: 1. the electrical mains features are suitable for the absorption values indicated in the electrical data table, also taking into consideration any other machines operating at the same time. 2. The unit is only powered when installation has been completed (hydraulic and electric). 3. Respect the connection indications of the phase, neutral and earth wires. 4. The power supply line must have a relevant protection mounted upstream against short circuits and dispersions to earth, which isolates the system with respect to other utilities. 5. The voltage must be within a tolerance of ±10% of the nominal power supply voltage of the machine (for unbalanced three-phase unit max 3% between the phases). Whenever these parameters are not respected, contact the electric energy public body. 6. For electric connections, use the cables with double isolation according to the Standards in force on this subject in the different countries. IT IS REQUIRED 1. The use of an omnipolar magnet circuit breaker switch is mandatory, in compliance with the IEC-EN Standards (contact opening at least 3 mm), with suitable cut-off power and differential protection on the basis of the electric data table shown below, installed as near as possible to the appliance. 2. to make an effective earth connection. The manufacturer cannot be considered responsible for any damage caused by the lack of or ineffective appliance earth connection. 3. For units with three-phase power supply, check the correct connection of the phases. All the electrical operations must be carried out by STAFF IN POSSESSION OF THE NECESSARY QUALIFICATIONS BY LAW suitably trained and informed on the risks related to these operations The characteristics of the electrical lines and of the related components must be determined by STAFF QUALIFIED TO DESIGN ELECTRICAL SYSTEMS, in compliance with the international and national regulations of the place of installation of the unit and in compliance with the regulations in force at the moment of installation For the installation requirements refer only to the electrical diagram supplied with the appliance. The electrical diagram along with the manuals must be kept in good condition and ALWAYS AVAILABLE FOR ANY FUTURE SERVICING ON THE UNIT. IT IS mandatory to verify that the machine is watertight before making the electrical connections and it must only be powered up after the hydraulic and electrical works have been completed. ATTENTION It is prohibited to use the water pipes to earth the appliance ATTENTION Check the tightening of all power wire clamps on commissioning and after 30 days from start-up. Subsequently, check the tightening of all the power clamps every six months. Loose terminals can cause overheating of the cables and components. The cable sections stated in the table are recommended for a maximum length of 50 m and placed in a cable trough. For longer lengths or different cable laying, it is up to the PLANNER to calculate the appropriate length of the cables as well as the connection to the earth wire and linking to connected cables: • the length • the type of cable • the absorption of the unit and the physical location, and the ambient temperature. Aermec cod. 6755512_05 6.2011 57 Maximum current UK ANL-ANLH 020-200 025 230V/1/50Hz 030 230V/1/50Hz 040 230V/1/50Hz 020 400V/3N/50Hz 025 400V/3N/50Hz 030 400V/3N/50Hz 040 400V/3N/50Hz 050 400V/3N/50Hz 070 400V/3N/50Hz 080 400V/3N/50Hz 090 400V/3N/50Hz 100 400V/3N/50Hz 150 400V/3N/50Hz 200 400V/3N/50Hz ° P ° P ° P ° P ° P ° P ° P ° P ° P N|Q ° P N|Q ° P N|Q ° P N|Q ° P N|Q ° P N|Q ° P N|Q Fans [n°] 230V/1/50Hz Compressor [n°] 020 Version Power supply ELECTRICAL DATA ANL° | H 25. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 TOTAL ABSORPTION L.R.A. F.L.A. SUGGESTED CABLE SECTION SEZ. A [A] [A] Phase [n°] 59,5 26,5 62,5 63,5 83,7 84,7 98,7 99,7 26,5 27,5 32,5 33,5 35,7 36,7 48,7 49,7 65,3 67,3 68,0 75,3 77,3 78,0 102,3 104,3 105,0 96,3 98,3 99,0 76,0 77,4 78,8 87,0 89,8 90,5 117,0 119,8 120,5 16,5 17,5 16,5 17,5 19,7 20,7 23,7 24,7 6,0 7,0 6,0 7,0 6,7 7,7 8,7 9,7 11,3 13,3 14,0 13,5 15,5 16,2 16,3 18,3 19,0 17,3 19,3 20,0 22,0 23,4 24,8 26,0 28,8 29,5 34,0 36,8 37,5 1 1 1 1 1 1 1 1 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 3+N 26. ATTENTION CONTROL AND START-UP Please note that, on request by the Aermec customer or the legitimate owner of the machine, the units in this series can be started up by the AERMEC After-Sales Service in your area (valid only on Italian territory). The start of operation must be scheduled in advance based on the timeframe for the completion of works for the system. Prior to the work to be carried out by the AERMEC After-Sales Service, all other works (electrical and hydraulic connections, loading and bleeding of air from the system) must have been completed. 58 1. 2. 3. 4. 5. 6. 7. SEZ. B EARTH cavi per Cable section Total cabels [mm2] [mm2] singola [n°] [mm2] fase [n°] 1 4 2 0,5 4 1 4 2 0,5 4 1 4 2 0,5 4 1 4 2 0,5 4 1 6 2 0,5 6 1 6 2 0,5 6 1 6 2 0,5 6 1 6 2 0,5 6 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 2,5 4 0,5 2,5 1 4 4 0,5 4 1 4 4 0,5 4 1 4 4 0,5 4 1 4 4 0,5 4 1 4 4 0,5 4 1 4 4 0,5 4 1 6 4 0,5 6 1 6 4 0,5 6 1 6 4 0,5 6 1 6 4 0,5 6 1 6 4 0,5 6 1 6 4 0,5 6 1 10 4 0,5 10 1 10 4 0,5 10 1 10 4 0,5 10 1 16 4 0,5 16 1 16 4 0,5 16 1 16 4 0,5 16 1 16 4 0,5 16 1 16 4 0,5 16 1 16 4 0,5 16 400V/3N/50Hz IL [A] 25 25 25 25 25 25 32 32 16 16 16 16 16 16 16 16 16 16 16 16 16 16 25 25 25 25 25 25 25 25 25 45 45 45 45 45 45 PE fase fase fase neutro 230/1/50Hz PE fase KEY F.L.I.: F.L.A.: L.R.A.: Sez A: 3+N: Sez B: TERRA: IL: fase fase neutro Maximum power consumption Maximum current Peack current Power supply 3 Phase + neutre Connect controls and safeties Earth to bring the machine Main switch ELECTRICAL CONNECTION OF POWER TO THE POWER SUPPLY Before connec ng the unit to the power supply mains , ensure that the isola ng switch is open Open the front panel Use the holes for the main electric power supply cable and for the cables of the other external connec ons under the responsibility of the installer It is forbidden to access posi ons not specifically envisioned in this manual with electric cables Avoid direct contact with noninsulated copper piping and with compressor Iden fy the clamps for the wiring diagram, always refer to the electric layout supplied with the unit. For the func onal connec on of the unit, take the power supply cable to the electric control board inside the unit and connect to clamps L1L2-L3 and PE respec ng the polari es 8. 9. 10. 11. L1-L2-L3 as phases, and PE as earth see figure Re-posi on the inspec on panels Ensure that all protec ons removed for the electric connec on have been restored before electrically powering the unit Posi on the system master switch (external to the appliance) at “ON”. Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 27. STRAT UP ATTENTION Before carrying out the controls indicated below, make sure that the unit is disconnected from the power mains. Make sure that the master switch is locked in the OFF position and an appropriate sign is affixed. Before starting the operations, check that there is no voltage present using a voltmeter or a phase indicator. 3. 4. 5. 27.1. PRELIMINARY OPERATIONS TO BE MADE WITHOUT TENSION 6. check: 1. All safety conditions have been respected 2. The unit is correctly fixed to the support surface 3. The minimum technical spaces have been respected 4. That the power cables are generally of appropriate sec on, to withstand the overall drive power consump on. (see sec on Electrical Data), and that the unit is properly connected to earth. 5. All electric and hydraulic connections have been tightened well. 27.2. THE FOLLOWING OPERATIONS ARE PER FORMED WHEN THE UNIT IS POWERED. 1. 2. 3. 4. Supply power to the unit by turning the master switch to the ON position. The display will come on a few seconds after voltage has been supplied. Use a tester to check that the value of the power supply voltage to the RST phases is equal to 400V ±10%; also verify that the unbalance between phases is no greater than 3%. Check that the connections made by the installer are in compliance with the documentation. Verify that the resistor of the compressor sump is working by measuring the increase in temperature of the oil pan. The resistance/s must function for at least 12 hours before start-up of the compressor and in all cases the temperature of the oil pan must be 10 -15°C higher than the room temperature. HYDRAULIC CIRCUIT 1. Check that all hydraulic connections are made correctly, that the plate indications are complied 2. Check that the hydraulic system is filled and under pressure and also make sure that no air is present; if so, bleed it. SYSTEM LOAD: Before starting the load, CHECK: − that the system drain tap is closed. − Open all the drain valves of the system and of the related terminals. − Open the shut-off devices of the system. − Start the filling by slowly opening the water system load cock placed outside the machine. − When water begins to flow from the terminal vent valves, close them and continue loading up to read Aermec cod. 6755512_05 6.2011 on the gauge the value of 1.5 bar. The system is loaded at a pressure between 1 and 2 bar. It is advisable to repeat this operation once the machine has worked for some hours and to periodically check the system pressure, restoring if it drops below 1 bar. Check the hydraulic seal of the joints. Verify that any on-off valves present in the system are correctly opened. Make sure that the circulation pump is operating and that the flow rate of the water is sufficient to close the contact of the flow/pressure switch. Check lthe water flow rate, measuring the pressure difference between input and output of the evaporator and calculate the flow rate using theevaporator pressure drop diagram present in technical documentation. (www . aermec . com) Check the correct functioning of the flow/ pressure switch if installed. Closing the cut-off valve at the output of the heat exchanger; the unit control panel must show the block. Finally re-open thevalve and rearm the block. 27.3. MACHINE COMMISSIONING setpoint value. The control of its correct functioning can be performed by closing the air intake to the exchanger (in cooling mode) and keeping the high pressure manometer under control, check the intervention in correspondence of the calibration value. Caution: In the event of failure to intervene at the calibration value, stop the compressor immediately and check the cause. The reset is manual and can only be performed when the pressure falls below the differential value. (For the set and differential values, consult the technical manual). - The anti-freeze control The anti-freeze control managed by the electronic regulation and by the temperature probe located at the outlet of the evaporator is to prevent the formation of ice when the water flow rate is too low. Correct operation can be checked by progressively increasingly the anti-freeze set-point until it passes the outlet water temperature and keeping the water temperature controlled with a high precision thermometer, verify that the unit is off and generates the respective alarm. After this operation, take the anti-freeze set-point back to its original value. After having performed all controls stated above, it is possible to start the unit by pressing the ON key. The display shows the temperature of the water and machine functioning mode. Check the operating parameters (set-point) and reset any alarms present. After a few minutes, the unit will begin operating. 27.3.1. CHECKS THE MACHINE IS ON COOLING CIRCUIT CHECK: - That the compressor input current is lower than the maximum indicated in the technical data table. - That in models with three-phase power supply, the compressor noise level is not abnormal. If this is the case, invert a phase. - That the voltage value lies within the prefixed limits and that unbalance between the three phases (three-phase power supply) is not above 3%. - The presence of any refrigerant GAS leaks par cularly with reference to pressure plugs, pressure transducers and pressure switches. (VIBRATIONS DURING TRANSPORTATION MAY LOOSEN CONNECTIONS). - Overheating Comparing the temperature read using a contact thermostat positioned on the compressor intake with the temperature shown on the low pressure manometer (saturation temperature corresponding to the evaporation pressure). The difference between these two temperatures gives the overheating value. Optimal values are between 4 and 8°C - The Pressing line temperature If the subcooling and overheating values are regular the temperature measured in the pressing line pipe at the outlet of the compressor must be 30/40°C above the condensation temperature. CONTROL AND SAFETY DEVICES CHECK: - High pressure switch That stops the compressor, generating the respective alarm, when the delivery pressure exceeds the 59 UK ANL-ANLH 020-200 28. FUNCTIONING FEATURES 28.1. SET POINT IN COOLING MODE 28.5. ANTI FREEZE ALARM (Factory set) = 7°C, ∆t = 5°C. The an -freeze alarm is ac ve if the machine is off or in stand-by mode. In order to prevent the heat exchanger from breaking due to the water it contains freezing, envision compressor block (if the machine is on below 3.5 °C) and igni on of the resistance (if standby below 5 °C). If the temperature detected by the probe posi oned in outlet of the heat exchanger and in inlet to the chiller is less than +3.8°C. 28.2. SET POINT IN RISCALDAMENTO (Factory set) = 45°C, ∆t = 5°C. If the unit power supply is restored a er a temporary interrup on, the set mode will be kept in the memory. 28.3. COMPRESSOR START UP DELAY Two func ons have been prepared to prevent compressor start-ups that are too close. - Minimum time from last switch-off 60 seconds in cooling mode. - Minimum time from last switch-on 300 seconds in heating mode 28.4. CIRCULATION PUMP The circuit board envisions an output for the management of the circula on pumps. The pump side u li es start immediately a er the first 30 seconds of func oning. When the water flow rate has gone into normal working condi ons, the flow meter control func ons are ac vated (if envisioned). Below find the compressor start-up procedure, by switching the source side pump on with flow meter check if enabled a er 20 seconds. Whenever alarms do not occur, the compressor starts. 60 The interven on of this alarm determines compressor block and not pump block, which remains ac ve along with the switchon of the resistance if installed. To restore normal func ons the temperature of the outlet water. Rearm is manual. ATTENTION 11 This anti-freeze set temperature can only be varied by an authorised after-sales centre and only after having checked that there is anti-freeze solution in the water system. 12 Whenever this alarm intervenes, We advise you call the nearest after-sales service immediately 28.6. WATER FLOW RATE ALARM The unit manages a water flow rate alarm controlled by the differen al/flow pressure switch installed in series on the machine. This type of safety device intervenes a er the first 30 seconds of pump func oning, if the water flow rate is not sufficient. The interven on of this alarm determines compressor and pump block. Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 29. ATTENTION Consigliamo di prevedere un libretto macchina (non fornito, ma a carico dell'utente), che consenta di tenere traccia degli interventi effettuati sull'unità, in questo modo sarà più facile organizzare adeguatamente gli interventi facilitando la ricerca e la prevenzione di eventuali guasti alla macchina. Riportare sul libretto data, tipo di intervento effettuato (manutenzione ordinaria, ispezione o riparazione), descrizione dell'intervento, misure attuate ATTENZIONE 13 è vietato CARICARE i circuiti frigoriferi con un refrigerante diverso da quello indicato. Utilizzare un gas refrigerante diverso può causare gravi danni al compressore. MAINTENANCE All cleaning is prohibited un l the unit has been disconnected from the electric power supply mains. Make sure there is no voltage present before opera ng. Periodic maintenance is fundamental to keep the unit perfectly efficient under a func onal and energe c point of view. It is therefore essen al to carry out periodic yearly controls for the: 29.1. HYDRAULIC CIRCUIT CHECK: 1. Refilling of water circuit 2. Cleaning the water filter 3. Control of pressure/flow switch 4. No air in the circuit (bleed) that the water flow rate to the 5. Evaporator is constant 6. The thermal insulation state of the hydraulic piping 7. The percentage of glycol where necessary 29.2. EMPTYING THE SYSTEM Before starting to drain the system, turn "off" the unit − Check that the water system load/restore tap is closed − Open the drain tap outside the machine and all the vent valves of the system and the corresponding terminals. − In case of prolonged shut-down of the unit during winter (if not added with glycol) or for other inconveniences, drain the chiller hydraulic circuit by the corresponding knobs. If the system uses glycol, this liquid should not be drained to the environment becau- se it is a pollutant. It must be collected and, if possible, reused. 29.3. ELECTRICAL CIRCUIT CHECK: 8. Safety efficiency 9. Electric supply pressure 10. Electrical Input 11. Connection tightness 12. Verify the operation of the carter compressor resistance 29.4. COOLING CIRCUIT CHECK: 13. State of compressor 14. Efficiency of the plate heat exchanger resistance if envisioned 15. Work pressure 16. Leak test for watertightness control of the cooling circuit 17. Functioning of high and low pressure switches 18. Carry out the appropriate checks on the filter dryer to check efficiency 29.5. MECHANICAL CHECK: 1. Check the tightening of the screws the compressors and the electrical box, as well as the exterior panelling of the unit. Insufficient fastening can lead to undesired noise and vibrations 2. State of the structure. Treat any shares if you encounter any oxidized paint suitable to iminate or reduce the phenomenon of oxidation. 29.6. EXTRAORDINARY MAINTENANCE The ANL | ANLH are filled with R410A gas and are inspected at the factory. Under normal conditions they do not require Technical Assistance related to control of refrigerant gas. Through time gas leakage may be generated from the from the joints, causing refrigerant to escape and discharge the circuit, causing appliance malfunctioning. In these cases the leakage points are to be discovered, repaired and the Gas circuit is to be replenished, respecting the December 28 1993 n°549 law. 3. Load procedure 7. 1. 2. 30. Empty and dry the entire cooling circuit using a vacuum pump connected to the low and high pressure socket until 10 Pa is read on the vacuum meter. Wait a few minutes and check that this value does not rise above 50 Pa. Connect the refrigerant gas cylinder or a load cylinder to the socket on the low pressure line. 4. 5. 6. 8. Load the amount of refrigerant gas indicated on the appliance features plate. After a few hours of functioning, check that the liquid indicator indicates the dry circuit (drygreen). In the case of partial loss, the circuit must be emptied completely before being re-loaded. The R410A refrigerant must only be loaded in the liquid state. Functioning conditions that are different to the nominal conditions can give rise to values that are greatly different. The sealing test or the search for leaks must only be performed using R410A refrigerant gas, checking using a suitable leak detector. In the cooling circuit it is prohibited to use oxygen or acetylene or other inflammable or poisonous gases because they are a cause of explosions or intoxication. DISPOSAL Provide that the disposal unit is implemented in accordance with the rules in force in different countries. Aermec cod. 6755512_05 6.2011 61 UK ANL-ANLH 020-200 31. LIST OF CONTROLS FOR THE GUIDED PROCEDURE Some parameters in the moducontrol board must be set appropriately on the basis of the type of system in which the unit is installed. These modifications, performed by the installer, are summarised and organised in the following guided procedures, with which to correctly set the unit circuit board parameters. 31.1. HOW TO MODIFY A PARAMETER IN THE USER MENU: REQUEST (1) What type of system terminals are used in the heating circuit? ANSWER • Is the unit a cooling only model SOLUTIONS • Go to ques on 2 • Radiant panels • Set the parameter StC (index 3 USER menu) with the value of 35 °C • Set the parameter StC (index 3 USER menu) with the value of 45 °C (default value) • Set the parameter StC (index 3 USER menu) with the value of 55 °C • Go to ques on 3 • Set the parameter PAN (index 9 INSTALLER menù) with the appropriate value selec ng from: Value (1): • Season control piloted from the circuit board • ON/OFF control enabled from PR3 Value (2): • Season control enabled from PR3 • ON/OFF control from panel on machine Value (3): • Season control enabled from PR3 • ON/OFF control enabled from PR3 • Go to ques on 5 • Set the parameter ASA (index A INSTALLER MENU) with the value (1) • Go to ques on 5 • Set the parameter AAS (index C INSTALLER menu) with the appropriate value (in seconds). This parameter indicates the stand-by time for inversion of the 3-way diverter valve on the DHW production system • No operation • This parameter enables a digital clamp ID (indicated on the circuit board with the code TRA) to which a room thermostat must be connected, used to disable the compressors and the integrative resistances. Set the parameter trA (index D INSTALLER menu) with the appropriate value, selecting from: 1. Value (1 o 2): ENABLED 2. Value (0 o 3): DISABLED 3. Remember that the OPEN state on the clamp represents: • the compressors and resistances block function if the parameter is set at 1 • the compressors, pumps and resistances block function if the parameter is set at 2 • represents the pump alarm (as in the previous software version), if the parameter is set at the value 3 • Fan coils or low temperature radiators • Other applica ons To enter the USER presses shown in (Fig. 1), once you press the key you must enter your password to access the various menus; • Not installed • installed User password menù: 000 (displayed by default) (2) Is the remote panel accessory installed (PR3)? (Fig.1) to change the value of the password using the arrow keys (Fig. 2). Once the correct password, press shown in (Fig. 1). (3) Is the production of DHW envisioned? • Not envisioned • envisioned • Not installed • installed (4) Is a 3-way diverter valve envisioned in the DHW production circuit • Not envisioned • envisioned (Fig.2) The display reads the USER parameter index and a three-character string that identifies it, the string is displayed for a second, after which it is replaced by the value for the parameter. To go to the next, use the arrow keys (Fig. 2). To change a parameter, select it by pressing the button shown in (Fig. 1), change the value assigned by the arrow keys (Fig. 2) and to confirm the change, press the switch in (Fig.1). 31.2. HOW TO MODIFY A PARAMETER IN THE INSTALLER MENU: To enter and edit the menu INSTALLED following the same procedure for the user menu. (5) Is a room thermostat installed? installer password menu: 030 62 Aermec cod. 6755512_05 6.2011 UK ANL-ANLH 020-200 ANOMALY CAUSE • No electric voltage The chiller does not start-up Insufficient yield Noisy compressor Noise and vibrations The compressor stops due to intervention of the protections • • • • • • • • • • • • • • • • • • • • • • • • • • • Master switch at OFF Remote switch at OFF (if present) Control panel at OFF Main switch at OFF Compressor magnet circuit breaker at OFF Power supply voltage too low Bobina di teleruttore compressore guasta Circuit board broken Peak condenser broken Compressor broken No refrigerant Appliance dimensioning Filtro acqua intasato Appliance dimensioning Functioning outside of operational limits Liquid return to the compressor Inadequate fixing Phase inverted Contacts between metal bodies Weak rest Loose screws Excessive flow pressure Low intake pressure Power supply voltage low Electric connections fastened badly Functioning outside of operational limits Pressure switch functions badly • Circuit breaker protection intervention • Temperatura acqua esterna elevata • Temperatura acqua ingresso acqua utenze elevate High compressor discharge pressure Low discharge pressure High intake pressure • Insufficient air flow • Insufficient water flow • • • • • • • • • • • • • • Anomaly functioning in fans regulation Air in the hydraulic system Excessive gas load Low external air temperature Low water input temperature Humidity in the cooling circuit Air in the hydraulic system Insufficient gas load High external air temperature High water input temperature Thermostatic expansion valve too open or damaged Low utilities water input temperature Low external water input temperature Thermostatic expansion valve damaged or blocked Low intake pressure • Insufficient air flow • Insufficient water flow Aermec cod. 6755512_05 6.2011 REMEDY • Check the presence of voltage • Check the safety systems upstream from the appliance • Position at ON • Check power supply line • Replace the component • • • • • Verify the charge and the presence of any leaks Clean the batteries Clean the filter Check Controllare con il grafico dei limiti operativi • Check • • • • Invert a phase Check Restore Tighten the screws • Check with the operational limits graph • Replace the component • Check power supply voltage • Check electric isolation of the windings • Check with the operational limits graph • 1. 2. 3. 4. • • • Verify: fans operability the battery cleaning Pump functionality (speed) Cleaning the filter Verify or replace in case of breakage Bleed the circuit Restore the correct load • Check with the operational limits graph as above • • • • • Empty and restore the gas load Bleed the circuit Restore the correct load check with the operational limits graph Adjust or replace if damaged • Check with the operational limits graph • Regolare o sostituire se danneggiata • 1. 2. 3. 4. Verify: fans operability the battery cleaning Pump functionality (speed) Cleaning the filter 63 The technical data on the following documents are not binding. Aermec reserves the right to make any changes at any time deemed necessary for product improvement.
