centrifugal water chiller - sarmasazan-co.irsarmasazan-co.ir/bankimages/g12.pdf · capacity control...
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Century ProductsCHILLER UNIT / AIR HANDLING UNITMARINE & INDUSTRIAL EQUIPMENTNUCLEAR HVAC SYSTEMAIR CONDITIONER / The Others
ISO 14001
KEC-0314
ISO 9001
KOC-3011
CentrifugalWater Chiller
Centrifugal Water Chiller
※ Model Nomenclature
Construction▶ Capacity Control Device·Continuous 10~100% capacity control
·Hot gas bypass line
▶ Control Panel·Automatic capacity control·Fully automatic operation·Color / Touch Screen Display
▶ Economizer·Ultra High-efficiency model
▶ Compressor·High-efficiency 2-stagecompression (1-stage compressionfor a standard-performancemodel)
·Closed shroud impeller·Vaneless diffuser
▶ Motor·High-efficiency motor·Refrigerant cooled system
▶ Evaporator and Condenser·The newest high-performance heattransfer tube.
·Sub-cooling system (Condenser)
■ Version No.■ Refrigerant : R-134a■ Cooling Capacity (Refer to the
standard specificution)■ Use - U : Ultra High efficiency Model
E : High-efficiency modelG : Standard-performance
modelI : Inverter Model
TR -- U 1000 H 1
High-efficiency HFC-134a Centrifugal Water Chiller
Meridional Static
Pressure Contour
(1st Stage)
Total Pressure
Contour at
Return-bend
and Channel
0302Century
Century’s High-efficiency HFC-134a Centrifugal Water
Chiller has realized energy saving through implementation
of a High-efficiency 2-stage compressor and the most up-to-
date heat transfer tube. Customer's satisfaction with the
performance and reliability of the Century’s High-efficiency
Centrifugal Water Chiller has earned it its status as the best selling Chiller on the market.
Feature & Benefits
Compressor
Performance
Prediction
◀ 1st Stage
◀ 2nd Stage
COP kW/RT
6.4 0.54
Features of the High-efficiency HFC-134a Centrifugal Water Chiller
We have significantly decreased the amount of CO2
production through realization of a High-efficiency model
and successful application of a refrigerant, HFC-134a,
which is completely toxin-free with zero ozone depletion
potential.
Century’s High-efficiency HFC-134a Centrifugal Water Chiller
has the lowest total refrigerant emissions rate in the
industry.
Environmental-friendly Centrifugal Water Chiller
We have greatly increased the efficiency of the compressor
by improving the impeller’s flow passage and by applying
hydro-dynamically optimum revolutions per minute. In
addition, we have utilized a super-precision aluminum alloy
for our impeller, which possesses an ideal 3D shape that
had been carefully reviewed through detailed analysis of its
structure and flow.
We have also adopted an ideal flow passage structure
through detailed numerical analysis of CFD fluid flow for
each parts and combined flow passage that make up the
paths of refrigerant such as the impeller, diffuser, de-
swirler, and casing.
Design Optimization of Impeller Using Numerical Analysis of Flow Passage
Centrifugal Water Chiller
High-efficiency• Century’s High-efficiency HFC-134a Centrifugal Water
Chillers offer the highest efficiency in the industry,
• We have achieved energy saving of 6~8% over the
previous 1-stage cycle model by adopting an economizer
based 2-stage compression system.
• High-efficiency Closed Shroud Impeller
• Realized High-efficiency cycle and system through
application of a sub-cooling system and a precise control
of expansion valve which carefully considered the effect
of part load.
• The newest and energy-saving high-performance heat
transfer tube
• High-efficiency electric motor.
Control of Wide Range of CapacitiesContinuous operation is possible from 10%~100% through
efficient associated control of inlet guide vane, movable
diffuser, and hot gas bypass.
• Part load performance is further improved through use of
moveable designed variable inlet guide vanes. Inlet guide
vanes improve performance by throttling refrigerant gas
flow to exactly meet part load requirements and by pre-
rotating refrigerant gas for optimum entry into the
impeller.
Safe Performance Guaranteed from Applicationof High-pressure RefrigerantHFC-134a centrifugal water chiller is able to display
continuous performance by extending the life of the chiller
through implementation of a high pressure design which
exceeds the atmospheric pressure.
No bleeding devices are necessary as the chiller is
completely free from the influx of any non condensates,
which has lowered the chiller’s efficiency in the old low-
pressure centrifugal water chillers (HFC -11, HFC -123).
HFC -134a guarantees the chiller’s long life performance as
it can prevent the insulation breakdown of the motor which
may arise from pollution of anti condensing substances.
Realization of a Low Noise Production SystemHFC -134a centrifugal water chiller has greatly decreased
the production of noise during operation in comparison to
the previous HFC -123 turbo chiller and other company’s
centrifugal water chillers through application of precision
impeller, optimum number of rotations, and low-noise
design. With only one moving component the rotor and
impeller assembly the low speed, direct drive design
operates exceptionally quietly.
The smoothly rotating Century compressor is inherently
quietest than other compressor types.
Feature & Benefits
Standard Hign
efficiency
Pow
er C
onsum
ption
0504Century
Energy saving High-performance Heat Transfer TubeThe heat transfer rates of the evaporator and condenser
have been significantly improved through the use of a high-
performance heat transfer tube, “THERMOEXCEL.”As a
result, condensation temperature becomes higher,
evaporation temperature becomes lower. This leads to
decrease in pressure ratio of the compressor and thus one
can save the cost of power consumption through major
decrease of load on the compressor.
This leads to decrease in pressure ratio of the compressor
and thus one can save the cost of power consumption
through major decrease of load on the compressor.
• Heat Transfer Tube for Evaporator “THERMOEXCEL-EKW”
In order to accelerate the boiling process and increase
bubble point, a tunnel shall be operated in the lower
region of the surface towards the direction of the
circumference. This allows the refrigerant to evaporate
quickly and thus provides complete and continuous
boiling process.
Also, the condenser shall perform double grooving and
ridge in order to enhance the heat transfer efficiency of
the chilled water. As a result, the heat transfer
performance has been improved over the previous single
grooving and ridge heat transfer tubes.
• Heat Transfer Tube for Condenser “THERMOEXCEL-CKW”
to allow the refrigerant to condense and drip easily, the
condenser shall be operated in the shape of a Micro-Fin
which has a sharp tip. Also, the condenser shall perform
double grooving and ridge in order to enhance the heat
transfer efficiency of the cooling water. As a result, the
heat transfer rate has been improved over the previous
groove and protrusion heat transfer tubes.
Internal Composition of THERMOEXCEL-EKW, CKW
Boiling
Internal Composition of an Old-model Heat Transfer Tube
Condensation, dripping
Centrifugal Water Chiller
Feature & Benefits
High-tech Control Center7.5”color LCD touch screen graphically displays the chiller’soperation status, alarm history management, remote control,
and scheduled operation, which allows for convenient control
and operation. In addition, the Pre-Alarm feature makes it
possible to eliminate errors and take appropriate measures
at the same time.
Not only that, language setting can be changed with a single
touch on the touch screen. The control center provides
Korean, English, and Chinese as the basic options while
other languages are available per order.
Operation Status Display
Users may graphically check the chiller’s operation status
such as the pressure, temperature, and control motor’sopening rate.
Convenient Capacity Control
Users may easily control the capacity control valve manually
or automatically.
Alarm History
Store up to 128 malfunctioning histories and may interpret
the cause of alarm by storing up to 8 operation data for
each alarm items when alarm is triggered.
Trend
Display maximum of up to 7 operation data in real-time as
graphs and allows users to save them to CF card when
necessary. And then print the saved data through the
printer.
Supports Modbus Protocol
Modbus protocol is provided in standard form to allow
users to monitor and or control (modify configured values,
remote operation) the chiller’s operation and alarm status
through RS-485 communication.
Pre-Alarm
Allows to eliminate error and take appropriate measures by
displaying pre-alarm signals before the chiller ceases to
operate during normal operation due to alarm
• High Oil Temperature Alarm
• Low Oil Temperature Alarm
• Freezing Prevention Alarm
• High Condenser Pressure Alarm
• Low Evaporator Pressure Alarm
• High Oil Supply Temperature Alarm
• Low Oil Pressure Alarm
PC Monitoring (Option)
Operator may monitor and or control the chiller installed on
the site by using an Ethernet-based PC from a remote
location without having to travel to the site.
Color LCD Touch Screen Display Window
0706Century
TR-U200H1 TR-U300H1 TR-U400H1 TR-U500H1 TR-U600H1
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V, and3300V; REACTOR for 3300V; and AUTO-COMENSATED for 6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V, and3300V; REACTOR for 3300V; and AUTO-COMENSATED for 6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Chilled-water Outlet TemperatureCoolingCapacity
Input
ChilledWater
CoolingWater
Dimension
Weight
FlowRate
Pressure Drop
Connection Size
No. of passes
Temperature
FlowRate
Pressure Drop
Connection Size
No. of passes
Length (L)
Width (W)
Height (H)
ShippingWeight
OperatingWeight
OC
USRT
㎥/h
mAq
A
-
OC
㎥/h
mAq
A
-
kW
mm
mm
mm
Ton
Ton
5 7 5 7 5 7 5 7 5 7
185 200 275 300 370 400 460 500 550 600
112 121 166 181 224 242 278 302 333 363
8.6 10.1 8.6 10.2 8.6 10.1 8.8 10.4 8.7 10.4
125 150 200 200 250
3 3 3 3 3
Inlet 32/ Outlet 37
134 145 200 218 269 290 334 363 399 435
9.0 10.5 8.9 10.6 9.2 10.8 8.9 10.5 9.2 10.9
125 150 200 250 250
3 3 3 3 3
126 128 187 192 233 232 290 290 347 348
4,110 4,110 4,250 4,250 4,250
1,634 1,832 2,042 2,147 2,252
2,048 2,169 2,334 2,442 2,492
6.5 7.6 8.8 10.2 11.1
6.9 8.1 9.6 11.1 12.2
ModelItem
Standard Specification for Ultra High-efficiency Model
R-134a,TR-U700H1~U1350H1
TR-U700H1 TR-U800H1 TR-U900H1 TR-U1000H1 TR-U1200H1 TR-U1350H1
Chilled-water Outlet TemperatureCoolingCapacity
Input
ChilledWater
CoolingWater
Dimension
Weight
FlowRate
Pressure Drop
Connection Size
No. of passes
Temperature
FlowRate
Pressure Drop
Connection Size
No. of passes
Length (L)
Width (W)
Height (H)
ShippingWeight
OperatingWeight
OC
USRT
㎥/h
mAq
A
-
OC
㎥/h
mAq
A
-
kW
mm
mm
mm
Ton
Ton
5 7 5 7 5 7 5 7 5 7 5 7
640 700 735 800 820 900 920 1,000 1,100 1,200 1,240 1,350
387 423 445 484 496 544 556 605 665 726 750 817
5.5 6.6 5.6 6.6 5.4 6.5 5.5 6.5 5.5 6.6 8.8 10.4
250 300 300 300 300 350
2 2 2 2 2 2
Inlet 32/ Outlet 37
464 508 533 581 595 653 668 726 798 871 900 900
6.4 7.6 6.5 7.7 6.3 7.6 6.5 7.7 6.6 7.9 9.9 11.6
300 300 300 300 350 400
2 2 2 2 2 2
403 406 463 464 508 513 570 570 682 684 744 743
5,030 5,030 5,070 5,070 5,070 6,160
2,490 2,490 2,618 2,638 2,846 3,279
2,668 2,668 2,840 2,880 3,043 3,480
14.0 14.8 16.2 17.1 19.0 23.7
15.1 16.0 17.5 18.6 20.8 27.4
ModelItem
R-134a, TR-U200H1~U600H1
Centrifugal Water Chiller
TR-U700H1~U1350H1
TR-U200H1~U600H1
Standard Outline Drawings TR-U type
COOLING WATEROUTLET
CHILLED WATEROUTLET
COOLING WATERINLET
COOLING WATER INLET
COOLING WATER OUTLET
CHILLED WATER OUTLET
CHILLED WATER INLET
CHILLED WATERINLET
CONDENSER
COMPRESSOREVAPORATOR
0908Century
Standard Specification For Ultra High-Efficiency Model
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V,and 3300V; REACTOR for 3300V; and AUTO-COMENSATED for6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
R-134a,TR-U1500H1~U2700H1
TR-U1500H1 TR-U1750H1 TR-U2000H1 TR-U2300H1 TR-U2500H1 TR-U2700H1
Chilled-water Outlet TemperatureCoolingCapacity
Input
ChilledWater
CoolingWater
Dimension
Weight
FlowRate
Pressure Drop
Connection Size
No. of passes
Temperature
FlowRate
Pressure Drop
Connection Size
No. of passes
Length (L)
Width (W)
Height (H)
ShippingWeight
OperatingWeight
OC
USRT
㎥/h
mAq
A
-
OC
㎥/h
mAq
A
-
kW
mm
mm
mm
Ton
Ton
5 7 5 7 5 7 5 7 5 7 5 7
1,380 1,500 1,610 1,750 1,850 2,000 2,110 2,300 2,300 2,500 2,480 2,700
835 908 974 1,059 1,119 1,210 1,277 1,392 1,391 1,512 1,500 1,633
8.7 10.3 9.1 10.6 9.0 10.5 8.8 10.4 8.7 10.3 8.8 10.4
350 400 400 400 450 500
2 2 2 2 2 2
Inlet 32 / Outlet 37
1,002 1,088 1,169 1,271 1,343 1,452 1,532 1,670 1,670 1,815 1,800 1,960
9.8 11.5 10.5 11.9 10.1 11.8 10.1 11.9 10.0 11.8 10.1 11.9
400 450 450 450 500 550
2 2 2 2 2 2
824 825 966 963 1,110 1,110 1,266 1,265 1,370 1,375 1,488 1,485
6,160 6,250 6,250 6,250 6,250 6,250
3,279 3,709 3,709 4,014 4,014 4,184
3,480 3,690 3,690 3,850 3,850 3,930
24.3 26.8 27.8 30.6 31.5 33.1
28.2 31.2 32.5 36.0 37.1 39.1
ModelItem
TR-U1500H1~U2700H1
COOLING WATER INLET
COOLING WATER OUTLET
CHILLED WATER OUTLET
CHILLED WATER INLET
Centrifugal Water Chiller
CV150 ×3 CV95 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
130 130 130
231.6 (200) 26.7 13.4
91.8 91.8 91.7
92.9 92.8 92.8
139.9 140.1 140.1
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV240 ×3 CV120 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
200 200 200
351.7 (303.8) 40.5 20.3
92.3 92.3 92.2
93.6 93.6 93.7
213.7 213.7 213.4
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV150 ×3 (2Line) CV185 ×2 (82) ×2 CV25 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
240 240 240
422.5 (364.9) 48.7 24.3
92.2 92.2 92.2
93.6 93.6 93.8
256.4 256.4 255.9
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV185 ×3 (2Line) CV240 ×6 (82) ×2 CV25 ×3 CV16 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
300 300 300
520.4 (449.4) 60.2 30.2
92..5 92.5 92.5
94.7 94.2 93.9
316.8 318.5 319.5
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED
CV240×3 (2Line) CV300 ×6 (104) ×2 CV50 ×3 CV25 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
370 370 370
642.4 (554.8) 74.2 37.1
92.6 92.6 92.6
94.5 94.2 94.2
391.5 392.8 392.8
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
380V(440V) 3,300V 6,600VSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-U200H1~U600H1 Type
TR-U200H1
TR-U300H1
TR-U400H1
TR-U500H1
TR-U600H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
Electrical Characteristics And Electric Wire Capacity For Ultra High-Efficiency Model
50Hz
MAINPOWER
MAINPOWER
MAINPOWER
CV50 × 3 CV25 ×6 (54) ×2 CV16 × 3 CV16 × 3 (70) ×1
430 430
85.7 43.0
92.8 92.8
94.6 94.3
454.5 456.0
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV25 ×6 (54) ×2 CV25 × 3 CV25 × 3 (70) ×1
490 490
97.7 49.0
92.8 92.8
94.6 94.3
518.0 519.6
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV50 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
540 540
107.3 53.9
92.9 92.9
94.8 94.4
569.6 572.0
REACTOR STARTING AUTO COMPENSATED STARTING
CV70 × 3 CV70 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
610 610
120.8 60.4
93 93
95 95
642.1 642.1
REACTOR STARTING AUTO COMPENSATED STARTING
CV95 × 3 CV95 ×3 (82) ×1 CV50 × 3 CV50 × 3 (70) ×1
720 720
142.6 71.3
93 93
95 95
757.9 757.9
REACTOR STARTING AUTO COMPENSATED STARTING
3,300V 6,600V
MAIN POWER STARTERMOTOR CONDUIT MAIN POWER STARTER
MOTOR CONDUITUnit Devision Units
TR-U700H1~U1200H1 Type
TR-U700H1
TR-U800H1
TR-U900H1
TR-U1000H1
TR-U1200H1
TR-U1000H1
TR-U1200H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
50Hz
1110Century
Centrifugal Water Chiller
CV95 ×3 CV95 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
760 760 760
150.5 75.3 45.6
93.0 93.0 92.5
95.0 95.0 94.6
800.0 800.0 803.4
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
850 850 850
170.1 84.6 51.0
92.5 92.5 92.5
94.5 95.0 94.6
899.5 894.7 898.5
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV150 ×3 CV150 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70) ×1
100 100 100
198.0 98.0 58.8
93.0 93.5 93.5
95.0 95.5 95.5
1052.6 1047.1 1047.1
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV185 ×3 CV185 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70)×1
1100 1100 1100
217.8 107.8 64.7
93.0 93.5 93.5
95.0 95.5 95.5
1157.9 1151.8 1151.8
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV240×3 CV240 ×3 (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1300 1300 1300
255.3 127.0 76.0
93.5 93.5 93.5
95.3 95.8 96.0
1364.1 1357.0 1354.2
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV95×3 (2 Line) CV95×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1420 1300 1300
278.2 128.0 82.7
93.5 93.5 93.5
95.5 96.3 96.4
1486.9 1474.6 1473.0
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120×3 (2 Line) CV120×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1530 1530 1530
298.2 148.2 88.7
93.5 93.5 93.7
96.0 96.6 96.6
1593.8 1583.9 1583.9
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
3,300V CLASS 6,600V CLASS 11,000V CLASSSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-U1350H1~U2700H1 Type
TR-U1350H1
TR-U1500H1
TR-U1750H1
TR-U2000H1
TR-U2300H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
50Hz
TR-U2500H1
TR-U2700H1
Electrical Characteristics And Electric Wire Capacity For Ultra High-Efficiency Model
MAINPOWER
MAINPOWER
MAINPOWER
1312Century
CV150 ×3 CV95 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
130 130 130
233.6 (200) 26.9 13.5
91.4 91.4 91.3
92.5 92.4 92.4
140.5 140.7 140.7
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV240 ×3 CV120 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
200 200 200
354.8 (306.4) 40.9 20.4
91.9 91.9 91.8
93.2 93.2 93.3
214.6 214.6 214.4
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV150 ×3 (2Line) CV185 ×2 (82) ×2 CV25 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
240 240 240
426.2 (368.1) 49.1 24.5
91.8 91.8 91.8
93.2 93.2 93.4
257.5 257.5 257.0
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV185 ×3 (2Line) CV240 ×6 (82) ×2 CV25 ×3 CV16 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
300 300 300
524.8 (453.3) 60.8 30.5
92.1 92.1 92.1
94.3 93.8 93.5
318.1 319.8 320.9
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED
CV240×3 (2Line) CV300 ×6 (104) ×2 CV50 ×3 CV25 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
370 370 370
648 (559.6) 74.9 37.4
92.2 92.2 92.2
94.1 93.8 93.8
393.2 394.5 394.5
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
380V(440V) 3,300V 6,600VUnit Devision Units
TR-U200H1~U600H1 Type
TR-U200H1
TR-U300H1
TR-U400H1
TR-U500H1
TR-U600H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
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kW
A
%
%
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-
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kW
A
%
%
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-
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kW
A
%
%
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-
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kW
A
%
%
kW
-
60Hz
STARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUITMAIN
POWERMAIN
POWERMAIN
POWER
Centrifugal Water Chiller
CV50 × 3 CV25 ×6 (54) ×2 CV16 × 3 CV16 × 3 (70) ×1
430 430
86.6 43.4
92.3 92.3
94.1 93.8
457.0 458.4
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV25 ×6 (54) ×2 CV25 × 3 CV25 × 3 (70) ×1
490 490
98.7 49.5
92.3 92.3
94.1 93.8
520.7 522.4
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV50 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
540 540
108.4 54.4
92.4 92.4
94.3 93.9
572.6 575.1
REACTOR STARTING AUTO COMPENSATED STARTING
CV70 × 3 CV70 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
610 610
122.1 61.0
92.5 92.5
94.5 94.5
645.5 645.4
REACTOR STARTING AUTO COMPENSATED STARTING
CV95 × 3 CV95 ×3 (82) ×1 CV50 × 3 CV50 × 3 (70) ×1
720 720
144.1 72.1
92.5 92.5
94.5 94.5
761.9 761.9
REACTOR STARTING AUTO COMPENSATED STARTING
3,300V 6,600V
MAIN POWER STARTER MOTOR CONDUIT MAIN POWER STARTER MOTOR CONDUITUnit Devision Units
TR-U700H1~U1200H1 Type
TR-U700H1
TR-U800H1
TR-U900H1
TR-U1000H1
TR-U1200H1
TR-U1000H1
TR-U1200H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
60Hz
Electrical Characteristics And Electric Wire Capacity For Ultra High-Efficiency Model
1514Century
CV95 ×3 CV95 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
760 760 760
152.1 76.1 46.1
92.5 92.5 92.0
94.5 94.5 94.1
804.2 804.2 807.7
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
850 850 850
172.0 85.5 51.5
92.0 92.0 92.0
94.0 94.5 94.1
904.3 899.5 903.3
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV150 ×3 CV150 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70) ×1
1000 1000 1000
200.2 99.0 59.4
92.5 93.0 93.0
94.5 95.0 95.0
1058.2 1052.6 1052.6
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV185 ×3 CV185 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70)×1
1100 1100 1100
220.2 108.9 65.3
92.5 93.0 93.0
94.5 95.0 95.0
1164.0 1157.9 1157.9
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV240×3 CV240 ×3 (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1300 1300 1300
258.0 128.3 76.8
93.0 93.0 93.0
94.8 95.3 95.5
1371.3 1364.1 1361.3
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV95×3 (2 Line) CV95×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1420 1420 1420
281.2 139.4 83.6
93.0 93.0 93.0
95.0 95.8 95.9
1494.7 1482.3 1480.7
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120×3 (2 Line) CV120×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1530 1530 1530
301.4 149.8 89.7
93.0 93.0 93.2
95.5 96.1 96.1
1602.1 1592.1 1592.1
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
3,300V CLASS 6,600V CLASS 11,000V CLASSSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-U1350H1~U2700H1 Type
TR-U1350H1
TR-U1500H1
TR-U1750H1
TR-U2000H1
TR-U2300H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
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A
%
%
kW
-
mm2
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A
%
%
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-
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A
%
%
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-
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A
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%
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-
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A
%
%
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-
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A
%
%
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-
mm2
kW
A
%
%
kW
-
60Hz
TR-U2500H1
TR-U2700H1
MAINPOWER
MAINPOWER
MAINPOWER
Centrifugal Water Chiller
Standard Specification for High-efficiency Model
TR-E type
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V,and 3300V; REACTOR for 3300V; and AUTO-COMENSATED for6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V,and 3300V; REACTOR for 3300V; and AUTO-COMENSATED for6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Input
ChilledWater
Weight
R-134a,TR-E200H1~E900H1
R-134a,TR-E1000H1~E2700H1
ModelTR-E200H1 TR-E300H1 TR-E400H1 TR-E500H1 TR-E600H1 TR-E700H1 TR-E800H1 TR-E900H1
Item
Chilled-waterOutlet Temperature OC 5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7
CoolingCapacity USRT 185 200 275 300 370 400 460 500 550 600 640 700 735 800 820 900
m3/h 112 121 167 182 224 242 279 303 333 363 388 424 445 484 496 545
mAq 9.1 10.6 9.0 10.7 9.1 10.6 9.3 10.9 9.2 10.9 5.8 6.9 5.9 6.9 5.7 6.8
A 125 150 200 200 250 250 300 300
- 3 3 3 3 3 2 2 2
OC Inlet32 / Outlet 37
m3/h 137 148 203 221 273 295 339 369 406 443 472 516 542 590 605 664
mAq 9.8 11.4 9.7 11.4 10.1 11.8 9.6 11.3 10.0 11.9 6.9 8.2 7.0 8.3 6.9 8.3
A 125 150 200 250 250 300 300 300
- 3 3 3 3 3 2 2 2
kW 128 130 190 195 248 248 308 310 368 372 429 434 493 496 550 558
mm 4,110 4,110 4,250 4,250 4,250 5,030 5,030 5,070
mm 1,497 1,627 1,753 1,893 2,000 2,164 2,164 2,315
mm 2,048 2,169 2,334 2,442 2,492 2,668 2,668 2,840
Ton 5.0 6.5 7.5 8.7 9.5 12.0 12.6 13.7
Ton 6.4 7.5 9.0 10.4 11.4 14.2 15.0 16.4
CoolingWater
Dimen-sion
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Temperature
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Length(L)
Width(W)
Height (H)
ShippingWeight
OperatingWeight
ModelTR-E1000H1 TR-E1200H1 TR-E1350H1 TR-E1500H1 TR-E1750H1 TR-E2000H1 TR-E2300H1 TR-E2500H1 TR-E2700H1
Item
5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7
920 1,000 1,100 1,200 1,240 1,350 1,380 1,500 1,610 1,750 1,850 2,000 2,110 2,300 2,300 2,500 2,480 2,700
557 605 666 726 750 817 835 908 974 1,059 1,119 1,210 1,277 1,392 1,391 1,512 1,500 1,633
5.8 6.8 5.8 6.9 9.2 10.9 9.1 10.8 9.4 11.1 9.4 11.0 9.2 10.9 9.2 10.8 9.2 10.9
300 300 350 350 400 400 450 450 500
2 2 2 2 2 2 2 2 2
Inlet32 / Outlet 37
679 738 812 885 915 997 1,018 1,106 1,188 1,292 1,365 1,476 1,558 1,698 1,697 1,845 1,830 1,992
7.1 8.4 7.2 8.6 10.6 12.6 10.6 12.5 10.8 12.8 11.0 12.8 10.8 12.8 10.8 12.8 10.8 12.8
300 350 400 400 450 450 500 500 550
2 2 2 2 2 2 2 2 2
616 620 737 744 794 797 883 885 1030 1033 1184 1180 1350 1357 1472 1475 1587 1593
5,070 5,070 6,160 6,160 6,250 6,250 6,250 6,250 6,250
2,365 2,555 2,940 2,940 3,310 3,310 3,660 3,660 3,874
2,880 3,043 3,410 3,410 3,620 3,620 3,780 3,780 3,860
14.4 16.0 22.3 22.9 25.2 26.2 28.9 29.7 31.3
17.3 19.4 26.0 26.8 29.6 30.8 34.2 35.2 37.2
Chilled-water Outlet Temperature OC
CoolingCapacity USRT
m3/h
mAq
A
-
OC
m3/h
mAq
A
-
kW
mm
mm
mm
Ton
Ton
Input
ChilledWater
Weight
CoolingWater
Dimen-sion
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Temperature
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Length(L)
Width(W)
Height (H)
ShippingWeight
OperatingWeight
1716Century
Standard Outline Drawings TR-E type
TR-E700H1~E2700H1
TR-E200H1~E600H1
COOLING WATER INLETCOOLING WATER OUTLET
CHILLED WATER OUTLET
CHILLED WATER INLET
COOLING WATER INLET
CONDENSER
CONDENSER
COMPRESSOR
COMPRESSOR
EVAPORATOR
EVAPORATOR
COOLING WATER OUTLET
CHILLED WATER OUTLET
CHILLED WATER INLET
Centrifugal Water Chiller
R-134a,TR-G200H1~G900H1
R-134a,TR-G1000H1~G2700H1
ModelTR-G200H1 TR-G300H1 TR-G400H1 TR-G500H1 TR-G600H1 TR-G700H1 TR-G800H1 TR-G900H1
Item
Chilled-waterOutlet Temperature OC 5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7
CoolingCapacity USRT 185 200 275 300 370 400 460 500 550 600 640 700 735 800 820 900
m3/h 112 121 167 182 224 242 279 303 333 363 388 424 445 484 496 545
mAq 9.5 11.1 9.4 11.2 9.5 11.1 9.7 11.4 9.6 11.4 6.1 7.3 6.1 7.3 5.9 7.2
A 125 150 200 200 250 250 300 300
- 3 3 3 3 3 2 2 2
OC Inlet32 / Outlet 37
m3/h 137 148 203 221 273 295 339 369 406 443 472 516 542 590 605 664
mAq 10.3 12.0 10.1 12.0 10.6 12.3 10.0 11.9 10.4 12.4 7.2 8.6 7.3 8.7 7.2 8.7
A 125 150 200 250 250 300 300 300
- 3 3 3 3 3 2 2 2
kW 144 144 214 216 255 256 317 320 379 384 442 448 507 512 566 576
mm 4,200 4,200 4,250 4,250 4,250 5,030 5,030 5,070
mm 1,567 1,805 1,753 1,893 2,000 2,164 2,164 2,315
mm 2,004 2,144 2,334 2,442 2,492 2,668 2,668 2,840
Ton 4.2 5.2 7.5 8.7 9.4 11.9 12.5 13.6
Ton 5.0 6.2 8.9 10.4 11.4 14.1 14.9 16.3
ModelTR-G1000H1 TR-G1200H1 TR-G1350H1 TR-G1500H1 TR-G1750H1 TR-G2000H1 TR-G2300H1 TR-G2500H1 TR-G2700H1
Item
5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7 5 7
920 1,000 1,100 1,200 1,240 1,350 1,380 1,500 1,610 1,750 1,850 2,000 2,110 2,300 2,300 2,500 2,480 2,700
557 605 666 726 750 817 835 908 974 1,059 1,119 1,210 1,277 1,392 1,391 1,512 1,500 1,633
6.1 7.2 6.1 7.3 9.6 11.4 9.6 11.3 9.9 11.7 9.9 11.6 9.6 11.4 9.6 11.3 9.7 11.4
300 300 350 350 400 400 450 450 500
2 2 2 2 2 2 2 2 2
Inlet32 / Outlet 37
679 738 812 885 915 997 1,018 1,106 1,188 1,292 1,365 1,476 1,558 1,698 1,697 1,845 1,830 1,992
7.4 8.8 7.6 9.0 11.1 13.2 11.1 13.1 11.3 13.4 11.5 13.4 11.3 13.4 11.4 13.4 11.3 13.4
300 350 400 400 450 450 500 500 550
2 2 2 2 2 2 2 2 2
634 640 759 768 818 824 910 915 1,062 1,068 1,221 1,220 1,392 1,403 1,518 1,525 1,636 1,647
5,070 5,070 6,160 6,160 6,250 6,250 6,250 6,250 6,250
2,365 2,555 2,940 2,940 3,310 3,310 3,660 3,660 3,874
2,880 3,043 3,410 3,410 3,620 3,620 3,780 3,780 3,860
14.3 15.8 22.2 22.8 25.0 25.9 28.6 29.4 31.0
17.2 19.2 25.8 26.6 29.3 30.5 33.8 34.8 36.8
Chilled-water Outlet Temperature OC
CoolingCapacity USRT
m3/h
mAq
A
-
OC
m3/h
mAq
A
-
kW
mm
mm
mm
Ton
Ton
Standard Specification For Standard-Efficiency Model
TR-G type
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V,and 3300V; REACTOR for 3300V; and AUTO-COMENSATED for6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Notes) 1. Fouling Factor for chilled water and cooling water : 0.0001m2h℃/kcal.2.Maximum operational pressure is 10kg/cm2G for chilled water andcooling water. Higher pressure can also be used. Please contact ourcompany when the operational pressure exceeds 10kg/cm2G.
3.The standard voltages for the main power are as follows. 3ø/60(50)Hz/380V, 440V, 3300V, 6600V
4.The standard starting method is STAR-DELTA method while thefollowing methods can also be used. STAR-DELTA for 380V, 440V,and 3300V; REACTOR for 3300V; and AUTO-COMENSATED for6600V.
5.Auxiliary power is 3ø/60(50)Hz/220V, 380V, 440V.6.Product standards and specifications are subject to change withoutnotice due to product reform.
Input
ChilledWater
Weight
CoolingWater
Dimen-sion
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Temperature
FlowRate
PressureDrop
ConnectionSize
No. ofpasses
Length(L)
Width(W)
Height (H)
ShippingWeight
OperatingWeight
Input
ChilledWater
Weight
CoolingWater
Dimen-sion
FlowRate
Pressure Drop
Connection Size
No. of passes
Temperature
FlowRate
Pressure Drop
Connection Size
No. of passes
Length (L)
Width (W)
Height (H)
ShippingWeight
OperatingWeight
1918Century
TR-G200H1~G300H1
L
H
W
TR-G400H1~G600H1
TR-G700H1~G2700H1
Standard Outline Drawings TR-G type
COOLING WATER OUTLET
CHILLED WATER OUTLET
COOLING WATER INLET
CHILLED WATER INLET
COOLING WATER OUTLET
CHILLED WATER OUTLET
COOLING WATER INLET
CHILLED WATER INLET
COOLING WATER INLET
COOLING WATER OUTLET
CHILLED WATER INLET
CHILLED WATER OUTLET
CONDENSER
COMPRESSOR
EVAPORATOR
CONDENSER
COMPRESSOREVAPORATOR
CONDENSER
COMPRESSOREVAPORATOR
Centrifugal Water Chiller
Electrical Specification For High-Efficiency And Standard
CV185 ×3 CV95 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
140 140 140
249.2 (215.2) 28.7 14.4
91.8 91.8 91.7
93 93 93
150.5 150.5 150.5
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV300 ×3 CV150 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
210 210 210
369.3 (319) 42.5 21.3
92.3 92.3 92.3
93.6 93.6 93.8
224.4 224.4 224.4
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV150 ×3 (2Line) CV185 ×6 (82) ×2 CV25 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
260 260 260
457.3 (394.9) 52.7 26.3
92.3 92.3 92.2
93.6 93.6 93.8
277.8 277.8 277.2
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV185 ×3 (2Line) CV240 ×6 (104) ×2 CV25 ×3 CV16 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
330 330 330
572.4 (494.3) 66.3 33.2
92.5 92.5 92.5
94.7 94.2 93.9
348.5 350.3 351.4
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED
CV240×3 (2Line) CV300 ×6 (104) ×2 CV50 ×3 CV25 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
390 390 390
677.2 (584.8) 78.2 39.1
92.6 92.6 92.6
94.5 94.2 94.2
421.7 414.0 414.0
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
380V(440V) 3,300V 6,600VSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-E(G)200H1~E(G)600H1 Type
TR-E(G)200H1
TR-E(G)300H1
TR-E(G)400H1
TR-E(G)500H1
TR-E(G)600H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
50Hz
MAINPOWER
MAINPOWER
MAINPOWER
2120Century
CV50 × 3 CV25 ×6 (54) ×2 CV16 × 3 CV16 × 3 (70) ×1
460 460
91.7 46.0
92.8 92.8
94.6 94.3
486.3 487.8
STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV25 ×6 (54) ×2 CV25 × 3 CV25 × 3 (70) ×1
520 520
103.6 52.0
92.8 92.8
94.6 94.3
549.7 551.4
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV50 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
590 590
117.2 58.8
92.9 92.9
94.8 94.5
622.4 624.3
REACTOR STARTING AUTO COMPENSATED STARTING
CV70 × 3 CV70 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
650 650
128.7 64.4
93 93
95 95
684.2 624.3
REACTOR STARTING AUTO COMPENSATED STARTING
CV95 × 3 CV95 ×3 (82) ×1 CV50 × 3 CV50 × 3 (70) ×1
780 780
154.5 77.2
93 93
95 95
821.1 821.1
REACTOR STARTING AUTO COMPENSATED STARTING
3,300V 6,600V
MAIN POWER STARTER MOTOR CONDUIT MAIN POWER STARTER MOTOR CONDUITUnit Devision Units
TR-E(G)700H1~E(G)1200H1 Type
TR-E(G)700H1
TR-E(G)800H1
TR-E(G)900H1
TR-U1000H1
TR-U1200H1
TR-E(G)1000H1
TR-E(G)1200H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
50Hz
Centrifugal Water Chiller
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
850 850 850
170.1 84.6 51.0
92.5 92.5 92.0
94.5 95.0 94.6
899.5 894.7 898.5
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
930 930 930
186.1 92.6 55.8
92.5 92.5 92.5
94.5 95.0 94.6
984.1 978.9 983.1
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV150 ×3 CV150 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70) ×1
1100 1100 1100
217.8 107.8 64.7
93.0 93.5 93.5
95.0 95.5 95.5
1157.9 1151.8 1151.8
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV185 ×3 CV185 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70)×1
1300 1300 1300
255.3 127.0 76.0
93.5 93.5 93.5
95.3 95.8 96.0
1364.1 1357.0 1354.2
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV240×3 CV240 ×3 (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1420 1420 1420
278.2 138.0 82.7
93.5 93.5 93.5
95.5 96.3 96.4
1486.9 1474.6 1473.0
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV95×3 (2 Line) CV95×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1550 1550 1550
302.1 150.1 89.9
93.5 93.5 93.7
96.0 96.6 96.6
1614.6 1604.6 1604.6
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120×3 (2 Line) CV120×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1670 1670 1670
324.2 161.1 96.1
93.5 93.5 94.0
96.4 97.0 97.0
1732.4 1721.6 1721.6
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
3,300V 6,600V 11,000VSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-E(G)1350H1~E(G)2700H1 Type
TR-E(G)1350H1
TR-E(G)1500H1
TR-E(G)1750H1
TR-E(G)2000H1
TR-E(G)2300H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
Electrical Specification For High-Efficiency And Standard
50Hz
TR-E(G)2500H1
TR-E(G)2700H1
MAINPOWER
MAINPOWER
MAINPOWER
2322Century
CV185 ×3 CV95 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
140 140 140
251.3 (217.1) 28.9 14.5
91.4 91.4 91.3
92.6 92.6 92.6
151.2 151.2 151.2
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV300 ×3 CV150 ×6 (70) ×2 CV16 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
210 210 210
372.5 (321.7) 42.9 21.4
91.9 91.9 91.9
93.2 93.2 93.2
225.3 225.3 225.3
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV150 ×3 (2Line) CV185 ×6 (82) ×2 CV25 ×3 CV16 ×6 (54) ×2 CV16 ×3 CV16 ×3 (70) ×1
260 260 260
461.2 (398.3) 53.1 26.5
91.9 91.9 91.9
93.2 93.2 93.4
279.0 279.0 278.4
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV185 ×3 (2Line) CV240 ×6 (104) ×2 CV25 ×3 CV16 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
330 330 330
577.3 (498.6) 66.8 33.5
92.1 92.1 92.1
94.3 93.8 93.5
349.9 351.8 352.9
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED
CV240×3 (2Line) CV300 ×6 (104) ×2 CV50 ×3 CV25 ×6 (54)×2 CV16 ×3 CV16 ×3 (70)×1
390 390 390
683 (589.9) 78.9 39.4
92.2 92.2 92.2
94.1 93.8 93.8
414.5 415.8 415.8
STAR-DELTA STARTING STAR-DELTA STARTING AUTO COMPENSATED STARTING
380V(440V) 3,300V 6,600VSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-E(G)200H1~E(G)600H1 Type
TR-E(G)200H1
TR-E(G)300H1
TR-E(G)400H1
TR-E(G)500H1
TR-E(G)600H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
60Hz
MAINPOWER
MAINPOWER
MAINPOWER
Centrifugal Water Chiller
Electrical Specification For High-Efficiency And Standard
CV50 × 3 CV25 ×6 (54) ×2 CV16 × 3 CV16 × 3 (70) ×1
460 460
92.7 46.5
92.3 92.3
94.1 93.8
488.8 490.4
STAR-DELTA STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV25 ×6 (54) ×2 CV25 × 3 CV25 × 3 (70) ×1
520 520
104.7 52.5
92.3 92.3
94.1 93.8
552.6 554.4
REACTOR STARTING AUTO COMPENSATED STARTING
CV50 × 3 CV50 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
590 590
118.5 59.4
92.4 92.4
94.3 94.0
625.7 627.7
REACTOR STARTING AUTO COMPENSATED STARTING
CV70 × 3 CV70 ×3 (70) ×1 CV35 × 3 CV35 × 3 (70) ×1
650 650
130.1 65.1
92.5 92.5
94.5 94.5
687.8 687.8
REACTOR STARTING AUTO COMPENSATED STARTING
CV95 × 3 CV95 ×3 (82) ×1 CV50 × 3 CV50 × 3 (70) ×1
780 780
156.1 78.1
92.5 92.5
94.5 94.5
825.4 825.4
REACTOR STARTING AUTO COMPENSATED STARTING
3,300V 6,600V
MAIN POWER STARTER MOTOR CONDUIT MAIN POWER STARTER MOTOR CONDUITUnit Devision Units
TR-E(G)700H1~E(G)1200H1 Type
TR-E(G)700H1
TR-E(G)800H1
TR-E(G)900H1
TR-U1000H1
TR-U1200H1
TR-E(G)1000H1
TR-E(G)1200H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
60Hz
2524Century
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
850 850 850
172.0 85.5 51.5
92.0 92.0 92.0
94.0 94.5 94.1
904.3 899.5 903.3
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120 ×3 CV120 ×3 (82) ×1 CV50 ×3 CV50 ×3 (70) ×1 CV25 ×3 CV25 ×3 (70) ×1
930 930 930
188.2 93.6 56.4
92.0 92.0 92.0
94.0 94.5 94.1
989.4 984.1 988.3
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV150 ×3 CV150 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70) ×1
1100 1100 1100
220.2 108.9 65.3
92.5 93.0 93.0
94.5 95.0 95.0
1164.0 1157.9 1157.9
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV185 ×3 CV185 ×3 (82) ×1 CV70 ×3 CV70 ×3 (70) ×1 CV35 ×3 CV35 ×3 (70)×1
1300 1300 1300
258.0 128.3 76.8
93.0 93.0 93.0
94.8 95.3 95.5
1371.3 1364.1 1361.3
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV240×3 CV240 ×3 (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1420 1420 1420
281.2 139.4 83.6
93.0 93.0 93.0
95.0 95.8 95.9
1494.7 1482.3 1480.7
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV95×3 (2 Line) CV95×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1550 1550 1550
305.3 151.7 90.8
93.0 93.0 93.2
95.5 96.1 96.1
1623.0 1612.9 1612.9
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
CV120×3 (2 Line) CV120×3 (2 Line) (82) ×1 CV95 ×3 CV95 ×3 (82)×1 CV50 ×3 CV50 ×3 (70)×1
1670 1670 1670
327.6 162.8 97.1
93.0 93.0 93.5
95.9 96.5 96.5
1741.4 1730.6 1730.6
REACTOR STARTING AUTO COMPENSATED STARTING REACTOR STARTING
3,300V 6,600V 11,000VSTARTERMOTOR CONDUIT STARTER
MOTOR CONDUIT STARTERMOTOR CONDUIT
Unit Devision Units
TR-E(G)1350H1~E(G)2700H1 Type
TR-E(G)1350H1
TR-E(G)1500H1
TR-E(G)1750H1
TR-E(G)2000H1
TR-E(G)2300H1
WIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHODWIRINGOUTPUTF.L.C
POWERFACTOREFFICIENCYINPUT
STARTMETHOD
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
mm2
kW
A
%
%
kW
-
60Hz
TR-E(G)2500H1
TR-E(G)2700H1
MAINPOWER
MAINPOWER
MAINPOWER
Centrifugal Water Chiller
■Electric Wire (TR-U Type)
① Electrical source for main power
Electrical source for control power
Power wiring for starter - motor
Control wiring of stsrter - control panel
3Ø 3W 380V, 440V, 3300V, 6600V
3Ø 3W 220V, 380V, 440V(220V:6SQ×3C, 380/440V:4SQ×3C)
3Ø 3W 380V, 440V, 3300V, 6600V
1) CW-SB 1.5SQ × 8C2) CW 1.5SQ × 6C(3C: SPARE)3) Conduit pipe: 28 × 2
②
③
④
INSTALL FIELD WIRING IN ACCORDANCE WITH THE WIRING DIAGRAMS AND APPLICABLE ELECTRICAL CORDS.
TABLE SHOWS THE ARRANGEMENT OF ELECTRICAL PIPING AND WIRING.
Electrical Specification
■ ElectricWire (TR-E(G) Type)
① Electrical source for main power
Electrical source for control power
Power wiring for starter - motor
Control wiring of stsrter - control panel
3Ø 3W 380V, 440V, 3300V, 6600V
3Ø 3W 220V, 380V, 440V(220V:6SQ×3C, 380/440V:4SQ×3C)
3Ø 3W 380V, 440V, 3300V, 6600V
1) CW-SB 1.5SQ × 8C2) CW 1.5SQ × 6C(3C: SPARE)3) Conduit pipe: 28 × 2
②
③
④
INSTALL FIELD WIRING IN ACCORDANCE WITH THE WIRING DIAGRAMS AND APPLICABLE ELECTRICAL CORDS.
TABLE SHOWS THE ARRANGEMENT OF ELECTRICAL PIPING AND WIRING.
2726Century
Lay-Out For Starter Panel Dimension
MODEL POWER SOURCE A B C REMARKS
TR-U, E, G200H1~600H1 380V,440V STAR-DELTA STARTER 800 1,000 2,350 STANDARD
TR-U, E, G200H1~600H1 380V,440V REACTOR STARTER 800 1,200 2,350 OPTION
3.3kV STAR-DELTA STARTER 800 1,200 2,350 STANDARD
TR-U, E, G200H1~1200H13.3kV REACTOR STARTER 800 1,600 2,350 OPTION
6.6kV AUTO COMPENSATED STARTER 800 1,600 2,350 STANDARD
6.6kV REACTOR STARTER 800 1,600 2,350 OPTION
STARTER PANEL SIZE
Seoul office : 1094, Hwagok-6Dong, Kangseo-Ku, Seoul, Korea (ZIP code : 157-927)
Asan Factory : 2-9 Dongsan-lee, Tangjung-myun, Asan-si, Chungnam, Korea
Telephone. 82 2-2600-9596 FAX. 82 2-2600-9549 E-mail. [email protected]
Visit us at : http://www.century.co.kr
Specifications in this catalogue are subject to change without notice.
Specifications in the catalogue are subject to change without notice.
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Prin
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www.century.co.kr