| EWYQ016CAWP | EWYQ021CAWP | EWYQ025CAWP | EWYQ032CAWP | EWYQ040CAWP | EWYQ050CAWP | EWYQ064CAWP | |||||
|---|---|---|---|---|---|---|---|---|---|---|---|
| Cooling capacity | Nom. | kW | 17.0 (1) | 21.2 (1) | 25.5 (1) | 31.8 (1) | 42.3 (1) | 50.7 (1) | 63.3 (1) | ||
| Capacity control | Method | Inverter controlled | Inverter controlled | Inverter controlled | Inverter controlled | Inverter controlled | Inverter controlled | Inverter controlled | |||
| Minimum capacity | % | 25 | 25 | 25 | 25 | 25 | 25 | 25 | |||
| Power input | Cooling | Nom. | kW | 5.81 (1) | 7.47 (1) | 9.45 (1) | 12.7 (1) | 15.1 (1) | 19.0 (1) | 25.5 (1) | |
| EER | 2.93 | 2.84 | 2.70 | 2.50 | 2.80 | 2.67 | 2.48 | ||||
| Dimensions | Unit | Depth | mm | 774 | 774 | 774 | 774 | 780 | 780 | 780 | |
| Height | mm | 1,684 | 1,684 | 1,684 | 1,684 | 1,684 | 1,684 | 1,684 | |||
| Width | mm | 1,370 | 1,370 | 1,370 | 1,680 | 2,360 | 2,360 | 2,980 | |||
| Weight | Unit | kg | 280 | 332 | 332 | 414 | 604 | 604 | 765 | ||
| Casing | Colour | Daikin White | Daikin White | Daikin White | Daikin White | Daikin White | Daikin White | Daikin White | |||
| Material | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | Polyester coated galvanised steel plate | ||||
| Air heat exchanger | Type | Air cooled coil | Air cooled coil | Air cooled coil | Air cooled coil | Air cooled coil | Air cooled coil | Air cooled coil | |||
| Fan | Quantity | 1 | 1 | 1 | 2 | 2 | 2 | 4 | |||
| Type | Axial | Axial | Axial | Axial | Axial | Axial | Axial | ||||
| Fan motor | Drive | Direct drive | Direct drive | Direct drive | Direct drive | Direct drive | Direct drive | Direct drive | |||
| Compressor | Quantity | 1 | 2 | 2 | 3 | 4 | 4 | 6 | |||
| Type | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | Hermetically sealed scroll compressor | ||||
| Operation range | Air side | Cooling | Min. | °CDB | -5 | -5 | -5 | -5 | -5 | -5 | -5 |
| Max. | °CDB | 43 | 43 | 43 | 43 | 43 | 43 | 43 | |||
| Water side | Evaporator | Min. | °CDB | -10 (4) | -10 (4) | -10 (4) | -10 (4) | -10 (4) | -10 (4) | -10 (4) | |
| Max. | °CDB | 20 | 20 | 20 | 20 | 20 | 20 | 20 | |||
| Sound power level | Cooling | Nom. | dBA | 78 | 78 | 78 | 80 | 81 | 81 | 83 | |
| Refrigerant | Type | R-410A | R-410A | R-410A | R-410A | R-410A | R-410A | R-410A | |||
| GWP | 2,087.5 | 2,087.5 | 2,087.5 | 2,087.5 | 2,087.5 | 2,087.5 | 2,087.5 | ||||
| Circuits | Quantity | 1 | 1 | 1 | 1 | 2 | 2 | 2 | |||
| Power supply | Phase | 3N~ | 3N~ | 3N~ | 3N~ | 3N~ | 3N~ | 3N~ | |||
| Frequency | Hz | 50 | 50 | 50 | 50 | 50 | 50 | 50 | |||
| Voltage | V | 400 | 400 | 400 | 400 | 400 | 400 | 400 | |||
| Voltage range | Min. | % | -10 | -10 | -10 | -10 | -10 | -10 | -10 | ||
| Max. | % | 10 | 10 | 10 | 10 | 10 | 10 | 10 | |||
| Unit | Starting current | Max | A | 0.0 (9) | 77.7 | 78.7 | 88.7 | 99.8 | 101.9 | 120.7 | |
| Running current | Max | A | 22.2 | 25.3 | 26.4 | 35.2 | 47.4 | 49.6 | 67.2 | ||
| Notes | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | (1) - Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C | ||||
| (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | (2) - Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C) | |||||
| (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | (3) - Condition: Ta 35°C - LWE 7°C ( DT = 5°C) | |||||
| (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | (4) - Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or ethylene) has to be used (see installation manual and information related to OPZL opti | |||||
| (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | (5) - Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra water volume might be required. Refer to operation range for more info. | |||||
| (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | (6) - Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is ≥ 45° C (eg. Fan coils) | |||||
| (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | (7) - This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop. | |||||
| (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | (8) - Including piping + PHE; excluding expansion vessel | |||||
| (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | (9) - No peak current because of inverter compressor | |||||