Introduction
The components of the refrigeration system belong to a type of heat exchanger, which can convert gas or steam into liquid, and quickly transfer the heat in the pipeline to the air near the pipeline. The working process of the condenser is an exothermic process, so the temperature of the condenser is higher.
Power plants use many condensers to condense steam from steam turbines. In the refrigeration device, the condenser is used to condense and condense the refrigeration steam such as ammonia and freon. In the petrochemical industry, condensers are used to condense hydrocarbons and other chemical vapors. During the distillation process, the device that turns steam into a liquid state is also called a condenser. The working principle of all condensers is to remove the heat of gas or steam.
Features
The shell adopts spraying technology, which is corrosion-resistant and beautiful in appearance;
Using high-efficiency heat exchange tube, good heat exchange effect
Using low-speed fan, large air volume and low noise
Can we process special products for users?
Advantages of evaporative condenser:
1. The system running cost is low. In the design temperature range of 8.3℃, the condensation temperature is very practical and economical. The power consumption of the compressor is at least 10% less than the power consumption of other condenser systems and 30% of the power consumption of the air-cooled condenser system.
2. Save initial investment. The cooling tower evaporative condenser is integrated with the condenser, circulating pool, circulating water pump and water pipe, which reduces the equipment such as cooling tower, circulating water pump and water pipe, and also reduces the cost of processing and installing a single component cooling tower/condenser system.
3. Save space. The evaporative condenser combines the condenser coil and the cooling tower, saving valuable space, and does not require the use of larger pumps and piping like the cooling tower/condenser system. The evaporative condenser only requires about 50% of the windward area of the air-cooled condenser of the same specification.
SN | Model | Compressor | Condenser Fan QTY | Cooling Capacity (W) | Power Input(KW) | Temperature(cold room) | Dimension(MM) |
1 | JZBF02MY | 2GES-2Y | 1 | 3240 | 1.81 | -10℃~5℃ | 620*650*560 |
2 | JZBF02MY | 2FES-2Y | 1 | 4000 | 2.25 | -10℃~5℃ | 620*650*560 |
3 | JZBF02MY | 2EES-2Y | 2 | 5180 | 2.56 | -10℃~5℃ | 960*680*460 |
4 | JZBF02MY | 2DES-2Y | 2 | 6220 | 3.13 | -10℃~5℃ | 960*680*510 |
5 | JZBF03MY | 2CES-3Y | 2 | 7700 | 3.84 | -10℃~5℃ | 1060*680*720 |
6 | JZBF03MY | 4FES-3Y | 2 | 8310 | 4.17 | -10℃~5℃ | 1300*750*670 |
7 | JZBF04MY | 4EES-4Y | 2 | 10560 | 5.34 | -10℃~5℃ | 1300*750*770 |
8 | JZBF05MY | 4DES-5Y | 2 | 12610 | 6.3 | -10℃~5℃ | 1300*750*870 |
9 | JZBF06MY | 4CES-6Y | 2 | 15250 | 7.51 | -10℃~5℃ | 1280*710*910 |
10 | JZBF09MY | 4TES-9Y | 4 | 19160 | 9.28 | -10℃~5℃ | 1280*710*1210 |
11 | JZBF12MY | 4PES-12Y | 4 | 21800 | 10.27 | -10℃~5℃ | 1280*750*1460 |
12 | JZBF14MY | 4NES-14Y | 4 | 26100 | 12.48 | -10℃~5℃ | 1350*800*1410 |
13 | JZBF18MY | 4HE-18Y | 2 | 35400 | 16.89 | -10℃~5℃ | 1150*570*860 |
14 | JZBF23MY | 4GE-23Y | 2 | 41100 | 20.1 | -10℃~5℃ | 1150*570*860 |
15 | JZBF28MY | 4FE-28Y | 3 | 48600 | 23.9 | -10℃~5℃ | 1050*600*910 |
16 | JZBF34MY | 6GE-34Y | 3 | 60800 | 30.1 | -10℃~5℃ | 1050*600*910 |
17 | JZBF44MY | 6FE-44Y | 3 | 72900 | 36 | -10℃~5℃ | 1600*6100*880 |