Chiller /
Energy Solution

【Application Products】
Chiller (hermetic, reciprocating, screw and centrifugal)
Air conditioning system
Various types of compressors
Water cooling tower
Blower

[About TOP GIN] [TOP GIN Milestones] [Injection Molding Machine] [Air Compressor] [Pump] [Ceramic]
[Ventilation system] [Others]

1.Application Products
  • Chiller (hermetic, reciprocating, screw and centrifugal)
  • Air conditioning system
  • Various types of compressors
  • Water cooling tower
  • Blower
2.Circuit Diagram of Central Air Conditioning System
  • The heat exchange of the system is process through two water circulation system. The temperature difference between backwater and inflow in the circulation system shows the required heat for heat exchange. The system based on the temperature difference between the backwater and inflow control the flowing speed of circulating water and the speed of heat exchange. 
TOP GIN-Circuit Diagram of Central Air Conditioning System
3.Traditional Machinery Structure
  • Most screw chillers are processing the stage-based unload operation through four stages (25%, 50%, 75%, 100%). If the environmental load is not high, the chiller will operate with lower current with full operation (60HZ) of the compressor. This is the energy-saving foundation where an inverter can be introduced.
  • An inverter may greatly change the speed of compressor. The energy consumption for this is much lower than the four-staged unload. For this reason, the current programming for the new chiller gives priority to this.
 
4.Reconfiguring the Energy of Air Conditioning System
  • Control of Cooling Water Circulation System: fulfilling the variable control through the inspection of the temperature difference of backwater and inflow and achieving the target of energy saving and carbon reduction.
  • Control of Chilled Water Circulation System: Fulfilling variable control through the temperature of backwater and achieving the target of energy saving and carbon reduction.
5.Advantages of Energy saving Modules
  •  The pump motor and fan operate with lower frequency (revolution), which generate less and smooth noise. An inverter starts slowly without 6 to 8 times of starting current, which may reduce the demands for momentary high power.
6.Design for Overload
  • For all new construction, the design of air conditioning is according to the peak load based on which the overload is estimated. However, the peak load only makes up 5 to 10 percent of the overall operation time, which means that the system operates partially most of times. For this reason, there is plenty of room to save energy through an inverter.
TOP GIN- Chiller energy saving through an inverter
[About TOP GIN] [TOP GIN Milestones] [Injection Molding Machine] [Air Compressor] [Pump] [Ceramic]
[Ventilation system] [Others]
 
  • Acelon Chemicals & Fiber Corp. / Energy-saving of chiller / Energy-saving rate: 36%
Acelon Chemicals & Fiber Corp. / Energy-saving of chiller
  • Industrial Technology Research Institute of Taiwan / Energy-saving of chiller / Energy-saving rate: 39%
ndustrial Technology Research Institute of Taiwan / Energy-saving of chiller
  • Taiwan Taoyuan International Airport / Energy-saving of chiller / Energy-saving rate: 37%

Taiwan Taoyuan International Airport / Energy-saving of chiller
 
  • Taipei City Hospital / Energy-saving of chiller / Energy-saving rate: 45%

Taipei City Hospital / Energy-saving of chiller
  • SWMALL Villa/ Energy-saving of chiller / Energy-saving rate: 45%

SWMALL Villa/ Energy-saving of chiller
  • BoardTek Electronics / Energy-saving of chiller / Energy-saving rate: 33.2%


BoardTek Electronics / Energy-saving of chiller
  • Ease Motel / Energy-saving of chiller / Energy-saving rate: 32%

Ease Motel / Energy-saving of chiller
  • Taichung Veterans General Hospital, Chi-Yi Branch / Energy-saving of chiller / Energy-saving rate: 40%

Taichung Veterans General Hospital, Chi-Yi Branch / Energy-saving of chiller
  • Chin Poon Industrial / Energy-saving of chiller / Energy-saving rate: 39%

Chin Poon Industrial / Energy-saving of chiller
  • Advance Materials Corporation / Energy-saving of chiller / Energy-saving rate: 41%S


Advance Materials Corporation / Energy-saving of chiller
  • Hantic Precision / Energy-saving of chiller / Energy-saving rate: 34%

Hantic Precision / Energy-saving of chiller
  • Hong Tai Electric / Energy-saving of chiller / Energy-saving rate: 38%

Hong Tai Electric / Energy-saving of chiller
  • Uni-President / Energy-saving of chiller / Energy-saving rate: 42%
Uni-President / Energy-saving of chiller
  • Show Chwan Hospital / Energy-saving of chiller / Energy-saving rate: 49%

Show Chwan Hospital / Energy-saving of chiller
  • Taiwan Copper Foil Corp./ Energy-saving of chiller / Energy-saving rate: 50%

Taiwan Copper Foil Corp./ Energy-saving of chiller
  • ChipMOS / Energy-saving of chiller / Energy-saving rate: 37%

ChipMOS / Energy-saving of chiller
  • Kaohsiung San-Hsin Home Economics & Commerce Vocational High School / Energy-saving of chiller / Energy-saving rate: 44%

Kaohsiung San-Hsin Home Economics & Commerce Vocational High School / Energy-saving of chiller
 
  • Hitachi Taiwan / Energy-saving of chiller / Energy-saving rate: 34%

Hitachi Taiwan / Energy-saving of chiller
  • TPI Bearings / Energy-saving of chiller / Energy-saving rate: 43%

TPI Bearings / Energy-saving of chiller
  • Klean Air / Energy-saving of chiller / Energy-saving rate: 41%
Klean Air / Energy-saving of chiller






 

 
Energy saving of chiller 

Energy saving of chiller