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Water ChillerH.S.Code: 8418.619000
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 Water chillers are used for
cooling mould to improve the smooth finish of plastic products and reduce
the internal stress. It is easy to demould plastic products and the output
has been raised. Water chillers are also used for cooling all kinds of
lubricating oil and hydraulic transmission oil to control the oil
temperature accurately and improve the processing accuracy.
KC series chillers are developed on the basis of introducing and
assimilating the products' merits from the Europe and America. Utilizing
imported efficient hermetic compressor, heat exchanger and multifunction
controller, KC series chillers are easy to operate and maintenance. |
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Feature |
- Compact and completely sealed structure, but high
efficiency;
- Easy installation, operation and maintenance;
- Adopts U.S.A. or Japan compressor and electronic parts to
ensure long service life;
- Adopts pipe type evaporator and condenser to enhance heat
exchange efficiency;
- Equipped with thermostatic expansion valve, motor
protection device, high/low pressure switch, high pressure
safety valve(or fusable insert) and alarm.
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Featured Parts
- Compressor -- TECUMSEH/France (<=12Hp), Copeland/USA(<=15Hp),
Danfoss Performer(<=25Hp);
- Dryer Filter, Pressure Controller -- Danfoss/Denmark (Mexico);
- Temperature Controller -- DEI/Taiwan;
- Electrics -- Schneider/Shanghai;
- Pressure Gauge -- Coconut Tree/Taiwan;
- Chilled Water Pump -- DAB/Italy.
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Specification General
Specification
Refrigerant: R22.
Controller: PLC with digital LED display.
Temperature of inlet cooling water (for water cooled type only): <=320C.
Temperature of circumstance (for air cooled type only):
<=350C.
Temperature of outlet chilled water: 5~200C.
Power Supply: 380V/3p, 50Hz (or OEM).
Compressor: Swirl Rotation Type, Hermetic
Safety Device: High/low Pressure
Switch, Freeze Protector, Overload Relay, etc..
Refrigerant Control: Capillary(<=KC05) or Thermostatic
Expansion Valve(>KC05).
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Water Cooled Type (small)
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Model |
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Compressor |
Power (KW) |
3.05 |
4.43 |
6.95 |
9.79 |
11.55 |
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Nominal Chilling Capacity (Kcal/h) |
10,700 |
14,600 |
21,500 |
28,300 |
42,000 |
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Chilled Water |
Pump Power (KW) |
0.75 |
0.75 |
1.5 |
2.2 |
2.2 |
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Flow (T/h) |
3 |
3 |
6 |
10 |
12 |
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Pipe I.Dia. |
1" |
1" |
1-1/2" |
1-1/2" |
1-1/2" |
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Cooling Water |
Cooling Water
Flow (T/h) |
4 |
4 |
8 |
12 |
15 |
| Pipe I.Dia. |
1" |
1-1/2" |
1-1/2" |
2" |
2" |
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Weight (kgs) |
120 |
150 |
260 |
350 |
400 |
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Dimension (cm) |
88x
66x
96 |
88x
66x
100 |
120x
85x
120 |
150x
85x
120 |
150x
90x
120 |
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Water Cooled Type (big)
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Model |
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Compressor |
Power (KW) |
20.22 |
25.3 |
28.5 |
33.54 |
50.6 |
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Nominal Chilling Capacity (Kcal/h) |
60,000 |
71,400 |
83,000 |
110,000 |
143,000 |
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Chilled Water |
Pump Power (KW) |
3.0 |
3.0 |
3.0 |
4.0 |
5.0 |
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Flow (T/h) |
20 |
20 |
20 |
24 |
30 |
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Pipe I.Dia. |
2" |
2-1/2" |
2-1/2" |
2-1/2" |
3" |
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Cooling Water |
Cooling Water
Flow (T/h) |
20 |
24 |
28 |
30 |
35 |
| Pipe I.Dia. |
2" |
2-1/2" |
2-1/2" |
2-1/2" |
3" |
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Weight (kgs) |
550 |
700 |
950 |
1200 |
1400 |
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Dimension (cm) |
180x90x120 |
200x100x120 |
220x120x150 |
240x140x150 |
250x150x160 |
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Air Cooled Type
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Model |
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Compressor |
Power (KW) |
3.05 |
4.43 |
6.6 |
9.79 |
14.25 |
19.2 |
16.22x2 |
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Nominal Chilling Capacity (Kcal/h) |
9,080 |
12,600 |
19,200 |
28,300 |
38,700 |
53,200 |
93,396 |
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Chilled Water |
Pump Power (KW) |
0.75 |
0.75 |
1.5 |
2.2 |
2.2 |
3.0 |
3.0 |
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Flow (T/h) |
3 |
3 |
6 |
10 |
12 |
16 |
20 |
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Pipe I.Dia. |
1" |
1" |
1-1/2" |
1-1/2" |
2" |
DN50 |
DN65 |
| Fan Power (Kw) |
2x0.18 |
2x0.25 |
4x0.18 |
4x0.25 |
6x0.25 |
1.05 |
2.4 |
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Weight (kgs) |
140 |
180 |
320 |
400 |
630 |
1000 |
1400 |
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Dimension (cm) |
120x70x126 |
140x78x130 |
170x85x130 |
180x100x150 |
200x110x160 |
240x110x200 |
300x115x195 |
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FAQ
- Why use water chiller?
As you know, cooling time plays an important role in cycle time.
Practically speaking, to use water chiller instead of (or with) cooling
water tower may reduce cooling time obviously, and improve output by 20%
or more.
- Why choose air cooled water chiller?
Easy startup; No need to work with extra cooling water tower.
- Why choose water cooled water chiller?
Lower cost; Better heat transfer efficiency.
- How to know real chilling capacity?
Real chilling capacity = (theoretic chilling capacity) * (heat transfer
efficiency);
For water cooled water chiller, heat transfer efficiency is 75%;
For air cooled water chiller, heat transfer efficiency is 60%.
But circumstance temperature, temperature of cooling water (for water
cooled water chiller), etc. may influence heat transfer efficiency.
- Why Kenplas' KC series water chiller is better than others'?
The difference is heat transfer efficiency;
For water cooled water chiller, 75% (Kenplas') vs <=65% (others');
For air cooled water chiller, 60% (Kenplas') vs
<=50% (others').
- How to choose water chiller for my machine?
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Material |
| HDPE |
13.6 |
22.7 |
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Air
Compressor (no after cooler) |
4.7 |
| LDPE,
PP |
15.9 |
22.7 |
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Air
Compressor (with after cooler) |
3.7 |
| Nylon |
18.2 |
- |
- |
Vacuum
Pump |
7.5 |
| PS |
22.7 |
34.1 |
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Hydraulic Cooling |
7.5 |
| ABS |
22.7 |
- |
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Hot
Runner Mold |
10.5 |
| PVC |
29.5 |
36.3 |
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Water
Pump in Circuit |
3.7 |
| PC |
29.5 |
- |
- |
Feed
Throat - 400 Ton up machine |
1 set |
| PET |
31.8 |
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Feed
Throat - 400 Ton below machine |
2 sets |
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Polyolefins |
- |
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15.9 |
Extrusion -- Gear Box Cooling |
74.6 |
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Extrusion -- Feed Throat (screw<=3") |
1 set |
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Extrusion -- Feed Throat (screw>3") |
0.5 set |
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Extrusion -- Barrel or Screw Cooling |
1 inch
(screw dia) |
Remark: 1 Kw = 860 Kcal/h = 1.34 Hp.
- What flow rate of chilled water is the best?
Generally speaking, the temperature differential between chilled water
and back water should be within 3~50C
(sometimes 1-20C).
Please note this equation: (Real chilling capacity in Kcal/h) =
(temperature differential in 0C)
* (flow rate of chilled water in L/min) * 60min/h.
- Any requirement to water?
For sure, the water should be clean. Moreover, be care for PH value of
water. It is the best to have PH=7.
If PH>7, terrible corrosion may happen, which leads to scale (dirt)
gathers inside evaporator or mold, thus may reduce heat transfer
efficiency by 30%. In such case, an water softening device (or discale
additives) is needed in the water circulation to lower the PH of water.
- What should be the diameter of pipeline?
| Flow (L/min.) |
12 |
20 |
35 |
60 |
90 |
130 |
230 |
560 |
- Cooling for hydraulic oil, inlet of barrel?
Generally, just normal gap water is OK. Better not use water chiller
unless especially low temperature is required.
- Heat preservation for pipelines of chilled water?
Action on heat preservation must be taken not only to prevent heat loss,
but also to prevent dew on pipelines.
e.g. using metal pipeline (length 25m, surface area 25m2),
chilled water -- 100C,
circumstance temperature 300C,
heat loss may goes up to 750Kcal/h, i.e. 10% of nominal chilling
capacity of 3Hp water chiller.
Another solution is to use enhanced rubber tube instead of metal
pipelines.
- Any special requirement on water cooling for PET preform Production?
Details, go on >>.
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Plastics Machinery