High-Performance Plate Heat Exchangers for Efficient Heat Transfer
At Sawei Exheat, we provide advanced heat exchange solutions with three main products: Plate & Gasket, designed for high-efficiency heat transfer; Plate Heat Exchangers, offering compact and reliable systems for industrial applications; and Brazed Plate Heat Exchangers, built for high-pressure and temperature environments, ensuring robust performance and reliability. Each product is engineered to deliver optimal energy efficiency and cost-effective solutions, making Sawei Exheat a trusted name in the heat exchange industry.
PLATE & GASKET
A plate heat exchanger uses metal plates to transfer heat between two fluids, offering a significant advantage over traditional heat exchangers. With increased surface area, it enhances heat transfer efficiency and speeds up temperature changes. Compact brazed versions are widely used in combination boilers to boost domestic hot water (DHW) flow rates. Larger commercial units feature gaskets between the plates, providing efficient heat exchange for industrial applications.
Plate Heat Exchanger
Plate heat exchangers consist of metal plates with alternating ridges and grooves, arranged on a frame and clamped together with gaskets. These gaskets direct fluid flow, ensuring efficient heat transfer. The inlet and outlet ports are located in the corners, and the fluid flows between alternating plates. The design allows for easy control of flow distribution by adjusting the gaskets. The gaskets prevent fluid mixing and ensure leak-free operation, making plate heat exchangers reliable for efficient thermal performance in various applications.
Brazed Plate Heat Exchanger
The Brazed Plate Heat Exchanger (BPHE) from Sawei Exheat is a highly efficient, compact solution designed for effective heat transfer in a wide range of industrial applications. This product utilizes a unique brazing process, which ensures exceptional durability and performance, making it ideal for both high and low-temperature applications. The BPHE is engineered to maximize heat transfer efficiency while minimizing space requirements, making it a perfect choice for systems where space is limited.