Even with the widest plate, the fluid can be sufficiently evenly distributed in all corners of the plate to minimize pressure loss in the split zone. Plate of all heat exchange area in high efficiency heat exchange, plate of all physical area change into effective heat transfer area, no heat transfer dead zone, there is no flow dead angle, not prone to fouling, not easy to appear chloride ion corrosion caused by fouling. It can make full use of the allowable pressure drop, increase the convective heat transfer of flow rate, improve the overall thermal efficiency.
2. Unilateral flow design
The whole plate heat exchanger uses only one kind plate, which is easier to pipe, easier to install and equipment maintenance, and reduces the type and quantity of spare parts of the plate and rubber pad.
3.There are H and L two kinds of ripple angle
The heat transfer coefficient is maximized and the cost of equipment is reduced by optimizing the combination of heat exchanger plates.
4. One stamping molding
On the same plate, the corrugation depth of the plate is the same, so as to ensure that each contact point between the plates is well connected, and there is no over-stamping area on the plate, and no hidden cracks are produced, and the metal line on the plate is of the same height. The thickness of the plate can be up to 0.3mm, which enhances the bearing capacity of the plate, avoids thermal stress fatigue, avoids mechanical fatigue corrosion caused by oscillation and high frequency tremor, and the mechanical properties of the plate are better. The leakage caused by the hidden crack is avoided, and the contact point is evenly distributed. When the medium flows through the plate, the turbulence is strengthened, the heat transfer efficiency is maximized, the weight of the equipment is reduced, and the higher heat transfer coefficient is obtained under the requirement of ensuring the pressure.