Efficient Heat Transfer & Energy Consumption Optimization: Adopting corrugated plate design and countercurrent flow channel structure, combined with high-speed turbulent flow effect between plates, the heat transfer coefficient is much higher than that of traditional shell-and-tube heat exchangers, ensuring more sufficient heat exchange; the filling volume of special media is small, which greatly reduces operating energy consumption and medium loss, helping enterprises achieve energy saving, cost reduction and environmental protection compliance.
High Pressure & Corrosion Resistance, Safety & Reliability: Plate pairs adopt laser welding technology, with small welding deformation, low residual stress and excellent sealing performance, which can withstand a maximum design pressure of 50bar and a maximum operating temperature of 150℃; plate materials include 304, 316L, titanium, titanium-palladium, Hastelloy C276 and other corrosion-resistant materials, and gaskets are made of NBR, EPDM, VITON/FKM and other temperature and corrosion-resistant materials, effectively preventing medium leakage and cross-contamination, and suitable for corrosive fluid processing scenarios.
Compact Structure & Easy Installation: Compared with shell-and-tube heat exchangers, it has smaller volume and lighter weight, with an area of only 30%-50% of traditional equipment. The modular design is suitable for installation scenarios with limited space; it is fixed by tightening bolts, the installation process is simple, and subsequent expansion or modification is more flexible.
Easy Maintenance & Long Service Life: Welded flow channels ensure the stability of key working conditions, and gasket flow channels support detachable cleaning and component replacement without overall disassembly, which greatly shortens the shutdown maintenance time; the mesh contacts of the plates support each other, enhancing rigidity and excellent frost resistance. It can be restored to use after freezing, and is not prone to cracks and other damages, with a significantly longer service life than ordinary equipment.
| Parameter Category | Core Indicators |
| Maximum Processing Capacity | 5000 m³/h |
| Maximum Design Pressure | 50bar |
| Maximum Temperature Resistance | 150℃ |
| Nozzle Diameter | DN50~500 |
| Plate Thickness | 0.5mm - 1.2mm |
| Plate Material | 304, 316, 316L, Titanium, Titanium-Palladium, Hastelloy C276, 254SMO, Nickel, 904L, etc. |
| Gasket Material | NBR, EPDM, HNBR, HT-NBR, HEPDM, CR, VITON/FKM, etc. |
Refrigeration Industry: Suitable for evaporation and condensation of ammonia-based coolants, with small filling volume and high refrigeration efficiency, applicable to industrial refrigeration, cold chain storage and other scenarios.
Chemical Industry: Handles corrosive media such as sulfuric acid and caustic soda, as well as fluid heat exchange in various chemical processing technologies, ensuring production safety and continuous operation.
Petrochemical & Metallurgy: Suitable for petrochemical raw material heating and cooling, waste heat recovery in metallurgy industry and other working conditions, helping energy recycling and cost reduction and efficiency improvement.
Pharmaceutical & Food Industry: Meets the needs of sterile heat exchange of medicinal liquids and deep food processing (such as high-concentration fruit juice cooling), welded flow channels prevent pollution, and gasket flow channels are easy to clean and disinfect.
New Energy Field: Suitable for emerging scenarios such as green hydrogen production, industrial heat pumps and energy storage, supporting the achievement of decarbonization and emission reduction goals and boosting the development of clean energy industry.
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