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The BPHE is in principle built up by a plate package of corrugated channel plates between front and rear cover-plate packages.The cover plate packages consist of sealing plates,blind rings and lover plates.During the vacuum-brazing process,a brazed joint isformed at every contact pointbetweentwo plates.The design creates a heat exchangers that consists of two separate circuits.The design options of the brazed heat exchanger are extensive. Different plate patterns are available for various duties and performance specifications. You can choose a standard configuartion BHE,or a unit designed according to your own specific needs.The choice is entirely yours.
The BPHE is in principle built up by a plate package of corrugated channel plates between front and rear cover-plate packages.The cover plate packages consist of sealing plates,blind rings and lover plates.During the vacuum-brazing process,a brazed joint isformed at every contact pointbetweentwo plates.The design creates a heat exchangers that consists of two separate circuits.The design options of the brazed heat exchanger are extensive. Different plate patterns are available for various duties and performance specifications. You can choose a standard configuartion BHE,or a unit designed according to your own specific needs.The choice is entirely yours.
Brazed plate heat exchanger
Main images
Details
Copper brazed plate heat exchangers provide efficient heat transfer with a small footprint.
They are maintenance free, provide a long service lifetime and can withstand high temperatures and extremely high design pressures. They are used in a range of duties including cooling, heating, evaporation and condensing
What are the advantages of Brazed Plate Heat Exchanger?
High heat transfer efficiency
Compact structure
Compact structure
Easy installation
Easy Deinstallation
Durability
Frame material |
Carbon steel/stainless stell |
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|
Plate material |
SS304, SS316L, Nickel |
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|
End plate material |
SS304 |
|
|
BPHE material |
copper |
|
|
Connection material |
SS304 |
|
|
Design pressure |
3.5M/Pa |
|
|
Testing pressure |
4.5M/pa |
|
Delivery pictures
FAQ
Q: What is a titanium copper 60kW brazed plate heat exchanger?
A: A titanium copper 60kW brazed plate heat exchanger is a compact and efficient heat transfer device made from a combination of titanium and copper plates. It is designed to transfer heat between two fluids while maintaining high thermal efficiency.
Q: What are the advantages of using a titanium copper brazed plate heat exchanger?
A: The use of titanium and copper in the construction of the heat exchanger provides several advantages, including excellent corrosion resistance, high thermal conductivity, and durability. Titanium ensures resistance to corrosive environments, while copper enhances heat transfer efficiency.
Q: What are the typical applications of a titanium copper 60kW brazed plate heat exchanger?
A: This type of heat exchanger is commonly used in applications where corrosion resistance and efficient heat transfer are crucial. Some typical applications include swimming pool heating, domestic hot water systems, solar thermal systems, and industrial processes involving corrosive fluids.
Q: What is the maximum heat transfer capacity of a titanium copper 60kW brazed plate heat exchanger?
A: The 60kW rating indicates the heat transfer capacity of the heat exchanger. It means that the heat exchanger can transfer up to 60,000 watts of heat energy between the two fluids.
Q: Is the titanium copper brazed plate heat exchanger suitable for high-temperature applications?
A: Yes, the titanium copper brazed plate heat exchanger is designed to handle high-temperature fluids. However, it is essential to consider the specific temperature limits and compatibility of the materials with the fluids being used.
Q: Can the titanium copper brazed plate heat exchanger be used for both heating and cooling applications?
A: Yes, the heat exchanger can be used for both heating and cooling applications. It can transfer heat from a hot fluid to a cold fluid or vice versa, depending on the requirements of the system.
Q: How easy is it to clean and maintain a titanium copper brazed plate heat exchanger?
A: The compact design and removable plate configuration make cleaning and maintenance relatively easy. The plates can be easily accessed for cleaning using appropriate methods, ensuring optimal performance and longevity of the heat exchanger.
Q: Can the titanium copper brazed plate heat exchanger be customized to specific requirements?
A: Yes, manufacturers often offer customization options to meet specific requirements. This may include variations in the number of plates, connections, and overall dimensions to suit the application's needs. It is recommended to consult with the manufacturer for customized solutions.
Brazed plate heat exchanger
Main images
Details
Copper brazed plate heat exchangers provide efficient heat transfer with a small footprint.
They are maintenance free, provide a long service lifetime and can withstand high temperatures and extremely high design pressures. They are used in a range of duties including cooling, heating, evaporation and condensing
What are the advantages of Brazed Plate Heat Exchanger?
High heat transfer efficiency
Compact structure
Compact structure
Easy installation
Easy Deinstallation
Durability
Frame material |
Carbon steel/stainless stell |
|
|
Plate material |
SS304, SS316L, Nickel |
|
|
End plate material |
SS304 |
|
|
BPHE material |
copper |
|
|
Connection material |
SS304 |
|
|
Design pressure |
3.5M/Pa |
|
|
Testing pressure |
4.5M/pa |
|
Delivery pictures
FAQ
Q: What is a titanium copper 60kW brazed plate heat exchanger?
A: A titanium copper 60kW brazed plate heat exchanger is a compact and efficient heat transfer device made from a combination of titanium and copper plates. It is designed to transfer heat between two fluids while maintaining high thermal efficiency.
Q: What are the advantages of using a titanium copper brazed plate heat exchanger?
A: The use of titanium and copper in the construction of the heat exchanger provides several advantages, including excellent corrosion resistance, high thermal conductivity, and durability. Titanium ensures resistance to corrosive environments, while copper enhances heat transfer efficiency.
Q: What are the typical applications of a titanium copper 60kW brazed plate heat exchanger?
A: This type of heat exchanger is commonly used in applications where corrosion resistance and efficient heat transfer are crucial. Some typical applications include swimming pool heating, domestic hot water systems, solar thermal systems, and industrial processes involving corrosive fluids.
Q: What is the maximum heat transfer capacity of a titanium copper 60kW brazed plate heat exchanger?
A: The 60kW rating indicates the heat transfer capacity of the heat exchanger. It means that the heat exchanger can transfer up to 60,000 watts of heat energy between the two fluids.
Q: Is the titanium copper brazed plate heat exchanger suitable for high-temperature applications?
A: Yes, the titanium copper brazed plate heat exchanger is designed to handle high-temperature fluids. However, it is essential to consider the specific temperature limits and compatibility of the materials with the fluids being used.
Q: Can the titanium copper brazed plate heat exchanger be used for both heating and cooling applications?
A: Yes, the heat exchanger can be used for both heating and cooling applications. It can transfer heat from a hot fluid to a cold fluid or vice versa, depending on the requirements of the system.
Q: How easy is it to clean and maintain a titanium copper brazed plate heat exchanger?
A: The compact design and removable plate configuration make cleaning and maintenance relatively easy. The plates can be easily accessed for cleaning using appropriate methods, ensuring optimal performance and longevity of the heat exchanger.
Q: Can the titanium copper brazed plate heat exchanger be customized to specific requirements?
A: Yes, manufacturers often offer customization options to meet specific requirements. This may include variations in the number of plates, connections, and overall dimensions to suit the application's needs. It is recommended to consult with the manufacturer for customized solutions.