Gas to Gas Heat Exchange
This heat exchanger facilitates effective heat transfer between gases, making it suitable for applications where both the heating and cooling of gas streams are required.
Platular Structure
The platular design enhances heat exchange efficiency by maximizing surface area contact between the gases, improving overall performance in heat transfer.
Product Advantages
Compact and Efficient
Compared to I-type exchangers, the L-type offers a more compact design while maintaining high thermal efficiency, making it ideal for space-constrained applications.
High Temperature and Pressure Handling
The L-type exchanger is designed to operate effectively at high temperatures and pressures, making it suitable for demanding industrial environments, ensuring reliable performance.
Low Pressure Drop
The L-type heat exchanger’s optimized flow path results in minimal pressure drop, which improves system efficiency by reducing energy losses during fluid transport.
Versatility
Suitable for various applications across industries, the L-type design performs efficiently in both high and low flow rate conditions, enhancing its adaptability.
Product Parameters
Product type | L-type |
Flue gas flow range | 1000-1000000Nm/h |
Operating temperature range | -50℃~1200℃ |
Operating pressure range | ±30 kPa |
overall heat transfer coefficient | 30 to 40 W/(㎡·℃) |
heat transfer efficiency | 100㎡/m³ |
Applications
Smaller industrial units or facilities
The compact design of the L-type heat exchanger makes it perfect for installations in areas where space is limited, such as in smaller industrial units or facilities with restricted space.
Special Flow Paths
The L-type exchanger is ideal for situations where gas flow paths are unique or constrained, offering an efficient solution without requiring complex pipe systems or adjustments.
Waste Heat Recovery in Oil and Gas Industry
The L-type heat exchanger is highly effective at recovering waste heat from flue gases in the oil and gas sectors, helping improve energy efficiency while minimizing environmental impact.
