Strong And Leak-Free Connection (BPHE) Copper Brazed Plate Heat Exchanger For Heating, Ventilation, And Air Conditioning
Adventures :
High Thermal Efficiency: Copper is an excellent thermal conductor, allowing for efficient heat transfer between fluids. The corrugated plate design increases the heat transfer area and turbulence, further enhancing thermal efficiency.
Compact Size: BPHEs have a compact and lightweight design due to the stacked plate arrangement. This makes them ideal for applications where space is limited, such as in compact HVAC systems or industrial equipment.
Versatility: Copper brazed plate heat exchangers can handle a wide range of fluids, including water, refrigerants, oils, and various industrial fluids. They are suitable for both liquid-to-liquid and liquid-to-gas heat transfer applications.
Corrosion Resistance: Copper exhibits excellent resistance to corrosion, making copper BPHEs suitable for applications involving aggressive or corrosive fluids. This reduces the risk of corrosion-related issues and extends the lifespan of the heat exchanger.
High Pressure and Temperature Capacity: Copper BPHEs can withstand high-pressure and high-temperature conditions, making them suitable for demanding industrial applications.
Fast and Efficient Heat Transfer: The compact design and direct metal-to-metal contact between the plates result in minimal thermal resistance and fast heat transfer rates. This leads to quick response times and efficient energy utilization.
Reduced Fouling: The highly turbulent flow created by the corrugated plates helps minimize fouling, which can negatively impact heat transfer efficiency. This reduces the frequency and intensity of maintenance and cleaning requirements.
Ease of Maintenance: Copper BPHEs require minimal maintenance. The smooth plate surfaces are easy to clean, and since there are no gaskets involved, there is no need for gasket replacements.
Cost-Effective: Copper BPHEs offer a cost-effective solution for heat transfer applications. Their high efficiency and compact size result in lower energy consumption and reduced installation costs.
Reliable and Durable: Copper brazed plate heat exchangers have a robust construction, ensuring long-term reliability and durability. The brazing process creates a strong bond between the plates, reducing the risk of leaks or failures.
Application :
HVAC (Heating, Ventilation, and Air Conditioning): Copper BPHEs are widely used in HVAC systems for heat exchange between the hot and cold sides. They are employed in applications such as air conditioning, heat pumps, chillers, and district heating.
Refrigeration: BPHEs are utilized in refrigeration systems for heat transfer between the refrigerant and the cooling medium. They are commonly used in refrigeration units, condensers, evaporators, and heat pumps.
Industrial Processes: Copper BPHEs are employed in various industrial processes that involve heat exchange. They can be found in applications such as oil and gas processing, chemical manufacturing, power generation, food and beverage processing, and pharmaceutical production.
Renewable Energy Systems: BPHEs play a crucial role in renewable energy systems, including solar thermal systems, geothermal heat pumps, and heat recovery systems. They facilitate the transfer of heat between the renewable energy source and the working fluid.
Domestic Hot Water Systems: Copper BPHEs are used in residential and commercial hot water systems for efficient heat exchange between the hot water supply and the cold water inlet.
Process Cooling and Heating: In industrial applications, copper BPHEs are employed for process cooling and heating, where they transfer heat between the process fluid and a cooling or heating medium.
Heat Recovery: BPHEs are commonly used in heat recovery systems to capture and transfer waste heat from one process to another, improving overall energy efficiency.
Marine and Offshore Applications: Copper BPHEs are utilized in marine and offshore systems, including shipboard HVAC systems, marine engine cooling, and oil rig applications, where compactness and efficiency are essential.
Heat Pump Systems: BPHEs are integral components of heat pump systems, which provide both heating and cooling capabilities. They facilitate the exchange of heat between the heat source (air, ground, or water) and the working fluid.
District Heating and Cooling: Copper BPHEs are employed in district heating and cooling networks, where they transfer heat between the centralized heat source and the individual buildings or consumers.
Prouct List and Type :
| TYPE |
B(mm |
C(mm |
D(mm) |
E(mm) |
Thickness
(mm)
|
Weight(Kg) |
Max Flow (m3/h) |
Design Pressure (Mpa) |
| SB14 |
77 |
42 |
206 |
172 |
9+2.3N |
0.7+0.06N |
8 |
1/3/4.5 |
| SB16 |
78 |
42 |
208 |
172 |
9+2.24N |
0.6+0.049N |
8 |
1/3/4.5 |
| SB18 |
95 |
50 |
210 |
165 |
7+3.1N |
0.7+0.06N |
8 |
1 |
| SB20B |
78 |
42 |
318 |
282 |
9+2.3N |
1+0.08N |
8 |
3/4.5 |
| SB20C |
77 |
42 |
313 |
278 |
10+1.28N |
0.9+0.07N |
8 |
3/4.5 |
| SB26 |
111 |
50 |
310 |
250 |
10+2.32N |
1.3+0.12N |
18 |
3/4.5 |
| SB26F |
107 |
50 |
307 |
250 |
10+1.98N |
1.3+0.1N |
18 |
3/4.5 |
| SB28B |
120 |
72 |
290 |
243 |
10+2.36N |
1.5+0.133N |
18 |
3/4.5 |
| SB28C |
120 |
63 |
290 |
234 |
10+2.36N |
1.5+0.133N |
18 |
3/4.5 |
| SB30 |
126 |
70 |
307 |
250 |
10+2.35N |
2.2+0.16N |
18 |
3/4.5 |
| SB52A |
111 |
50 |
526 |
466 |
9+2.32N |
2.6+0.21N |
18 |
3/4.5 |
| SB52B |
111 |
50 |
526 |
466 |
9+2.32N |
2.6+0.19N |
18 |
3/4.5 |
| SB53 |
106 |
50 |
522 |
466 |
9+2.1N |
2.6+0.27N |
18 |
3/4.5 |
| SB62A |
120 |
63 |
528 |
470 |
10+2.35N |
2.379+0.194N |
18 |
3/4.5 |
| SB62B |
120 |
63 |
528 |
470 |
10+2.35N |
2.379+0.194N |
18 |
3/4.5 |
| SB65 |
125 |
65 |
540 |
480 |
11+2.28N |
2.5+0.228N |
18 |
3/4.5 |
| SB95A |
189 |
92 |
616 |
519 |
11+2.7N |
7.8+0.44N |
42 |
3/4.5 |
| SB95B |
189 |
92 |
616 |
519 |
11+2.7N |
7.8+0.44N |
42 |
3/4.5 |
| SB120A |
246 |
174 |
528 |
456 |
10+2.34N |
7.2+0.52N |
42 |
3/4.5 |
| SB120B |
246 |
174 |
528 |
456 |
10+2.34N |
7.2+0.52N |
42 |
3/4.5 |
| SB190 |
303 |
179 |
695 |
567 |
13+2.3N |
12+0.61N |
100 |
1.6/2.1/3 |
| SB200A |
320 |
188 |
742 |
603 |
14+2.7N |
13+0.67N |
100 |
1.5/2.1/3 |
| SB200B |
320 |
188 |
742 |
603 |
14+2.7N |
13+0.67N |
100 |
1.5/2.1/3 |
| SB200E |
320 |
207 |
742 |
624 |
14+2.7N |
13+0.67N |
100 |
1.5/2.1/3 |
| SB202 |
319 |
188 |
741 |
603 |
16+2.85N |
13+0.957N |
100 |
2.1/3 |
| SB300 |
370 |
118(95.5) |
995 |
861(816) |
17+2.675N |
20+1.26N |
200 |
1.6/2.1/3 |
| SB500 |
304 |
179 |
982 |
854 |
17+2.29N |
26.6+0.93N |
200 |
2.1/3 |
| SB01 |
390 |
204 |
1320 |
1132 |
22+2.75N |
30+1.8N |
300 |
3/4.5 |
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Copper Material :
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