The ideal plate shape design not only has a larger heat transfer area, lower pressure drop, and higher heat transfer coefficient, but also has better rigidity, so that the thin plate is fixed to the compression plate.We know that plate heat exchangers use metal plates as heat exchange elements, which are pressed from thin plates of stainless steel, industrial pure titanium or other materials. For this reason, the reasonable distribution of supporting points and the arrangement of stiffeners should also be considered in the plate type design.. The heat exchange part is the core of the plate structure, and its structure mainly depends on the heat exchange medium. The role of inter-channel. The properties should be determined according to the design of heat transfer and fluid mechanics. According to its function, a plate can be divided into five parts: diversion part, heat exchange part, sealing part, edge support and suspension positioning. The plate structure of the plate heat exchanger is very different, and the ultimate goal of its design is to strengthen the heat exchange effect of the plate, increase the rigidity of the plate, and improve the pressure bearing capacity of the plate heat exchanger. It supports each other under the action of the clamping force of the movable compression plate to resist the impact caused by the unbalanced pressure in the channel. There is a hole in the four corners of each plate, and the gasket groove is pressed around the plate and the hole, and gaskets are placed in the circumferential groove of the hole as needed to allow fluid or prevent fluid from entering the plate surface. So what should the ideal plate heat exchanger Heat Exchangers FHC014C plate design look like? Let's talk about it together today. The orifice and gasket. If several plates are arranged on the support in turn according to the heat exchange requirements, and the fixed compression plate and the movable compression plate are compressed by the compression screw, a fluid channel is formed between the adjacent plates, with the help of the four corners of the plate. Usually, the plates are pressed into various grooves or corrugations with molds, which can increase the rigidity of the plates to prevent the plates from being deformed under pressure, and also enhance the turbulence of the fluid and increase the heat exchange area
