|
EWLD110J-SS (Archived) |
EWLD130J-SS (Archived) |
EWLD145J-SS (Archived) |
EWLD165J-SS (Archived) |
EWLD235J-SS (Archived) |
EWLD195J-SS (Archived) |
EWLD265J-SS (Archived) |
EWLD290J-SS (Archived) |
EWLD310J-SS (Archived) |
EWLD330J-SS (Archived) |
EWLD360J-SS (Archived) |
EWLD390J-SS (Archived) |
EWLD430J-SS (Archived) |
EWLD470J-SS (Archived) |
EWLD500J-SS (Archived) |
EWLD530J-SS (Archived) |
Cooling capacity |
Nom. |
kW |
110 (1) |
128 (1) |
142 (1) |
163 (1) |
236 (1) |
191 (1) |
264 (1) |
285 (1) |
306 (1) |
327 (1) |
355 (1) |
382 (1) |
428 (1) |
473 (1) |
501 (1) |
529 (1) |
Capacity control |
Method |
|
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
Stepless |
|
Minimum capacity |
% |
25.0 |
25.0 |
25.0 |
25.0 |
25.0 |
25.0 |
25.0 |
12.5 |
12.5 |
12.5 |
12.5 |
12.5 |
12.5 |
12.5 |
12.5 |
12.5 |
Power input |
Cooling |
Nom. |
kW |
31.2 (1) |
38.4 (1) |
43.8 (1) |
50.4 (1) |
66.0 (1) |
56.0 (1) |
75.3 (1) |
87.4 (1) |
94.0 (1) |
100 (1) |
106 (1) |
111 (1) |
122 (1) |
132 (1) |
141 (1) |
150 (1) |
EER |
3.51 (1) |
3.33 (1) |
3.25 (1) |
3.24 (1) |
3.58 (1) |
3.42 (1) |
3.51 (1) |
3.26 (1) |
3.25 (1) |
3.25 (1) |
3.35 (1) |
3.43 (1) |
3.52 (1) |
3.59 (1) |
3.55 (1) |
3.52 (1) |
Dimensions |
Unit |
Height |
Mm |
1,020 |
1,020 |
1,020 |
1,020 |
1,020 |
1,020 |
1,020 |
2,000 |
2,000 |
2,000 |
2,000 |
2,000 |
2,000 |
2,000 |
2,000 |
2,000 |
|
|
Width |
Mm |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
913 |
|
|
Depth |
Mm |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
2,684 |
Weight |
Unit |
kg |
1,124 |
1,141 |
1,237 |
1,263 |
1,489 |
1,305 |
1,489 |
2,474 |
2,500 |
2,526 |
2,568 |
2,611 |
2,795 |
2,979 |
2,979 |
2,979 |
|
Operation weight |
kg |
1,138 |
1,159 |
1,253 |
1,281 |
1,518 |
1,327 |
1,518 |
2,505 |
2,533 |
2,562 |
2,608 |
2,655 |
2,845 |
3,036 |
3,036 |
3,036 |
Water heat exchanger - evaporator |
Type |
|
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Plate heat exchanger |
Compressor |
Type |
|
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
Single screw compressor |
|
Quantity |
|
1 |
1 |
1 |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
Sound power level |
Cooling |
Nom. |
dBA |
89 |
89 |
89 |
89 |
89 |
89 |
89 |
94 |
94 |
94 |
94 |
94 |
94 |
94 |
94 |
96 |
Sound pressure level |
Cooling |
Nom. |
dBA |
79 (2) |
79 (2) |
79 (2) |
79 (2) |
79 (2) |
79 (2) |
79 (2) |
82 (2) |
82 (2) |
82 (2) |
82 (2) |
82 (2) |
82 (2) |
82 (2) |
82 (2) |
83 (2) |
Operation range |
Evaporator |
Cooling |
Min. |
°CDB |
|
|
|
|
|
|
|
-10 |
-10 |
-10 |
-10 |
-10 |
-10 |
-10 |
-10 |
-10 |
|
|
|
Max. |
°CDB |
|
|
|
|
|
|
|
15 |
15 |
15 |
15 |
15 |
15 |
15 |
15 |
15 |
|
Condenser |
Cooling |
Min. |
°CDB |
|
|
|
|
|
|
|
25 |
25 |
25 |
25 |
25 |
25 |
25 |
25 |
25 |
|
|
|
Max. |
°CDB |
|
|
|
|
|
|
|
60 |
60 |
60 |
60 |
60 |
60 |
60 |
60 |
60 |
Refrigerant |
Type |
|
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
R-134a |
|
GWP |
|
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
1,430 |
|
Circuits |
Quantity |
|
1 |
1 |
1 |
1 |
1 |
1 |
1 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
2 |
Piping connections |
Discharge line connection |
inch |
2"1/2 |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
4" |
Power supply |
Phase |
|
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
3~ |
|
Frequency |
Hz |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
50 |
|
Voltage |
V |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
400 |
Notes |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
(1) - Cooling: entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C, unit at full load operation. |
|
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
(2) - Sound level data are measured at entering evaporator water temp. 12.0°C; leaving evaporator water temp. 7.0°C; condensing temperature 45.0°C; full load operation; standard: ISO3744. |
|
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
(3) - Fluid: Water |
|
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
(4) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. |
|
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
(5) - Maximum starting current: starting current of biggest compressor + current of the other compressor at 75 % of maximum load |
|
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
(6) - Nominal current cooling mode is referred to the following conditions: evaporator 12/7°C; condenser 30/35°C; compressors current |
|
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
(7) - Maximum running current is based on max compressor absorbed current in its envelope |
|
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
(8) - Maximum unit current for wires sizing is based on minimum allowed voltage. |
|
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
(9) - Maximum current for wires sizing: compressor full load ampere x 1.1 |
|
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
(10) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). |
|
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |
(11) - Its functioning relies on fluorinated greenhouse gases |