What is the structural performance of the titanium heat exchanger?
A Titanium heat exchanger is an excellent piece of equipment with high heat exchange efficiency, simple structure, and durability, and can prevent damage to the heat exchange tube formed by the impact of fluid. Its structural performance is described as follows:
1. A buffer plate and a diversion hole are arranged under the dual-purpose liquid inlet and outlet of the equipment, which can buffer the impact of the fluid with a higher flow rate at the liquid inlet on the heat exchange tube below, and prevent the heat exchange tube row from being impacted by the fluid for a long time. The deformation of the pipe body, the breakage of the interface, etc. are damaged.
2. The buffer plate and the diversion hole can also slow down the flow rate and improve the heat exchange efficiency; in addition, the heat exchange tube frame is formed by the long heat exchange tube and the short heat exchange tube, and the short heat exchange tube forms the heat exchange tube row so that the fluid is When passing through the titanium heat exchanger from top to bottom or from top to bottom, while continuously exchanging heat with the long heat exchange tube, it also needs to pass through the heat exchange tube row, which slows down the flow rate of the fluid and increases The heat exchange area and the short heat exchange tubes with oblate cross-sections can further increase the heat exchange area and improve the heat exchange efficiency.
3. The heat exchange tube row and the horizontal plane are at an angle of 0-45 degrees, so you can choose a suitable angle according to your needs to adjust the size of the slow flow effect. gaseous fluid.
4. The dual-purpose liquid inlet and outlet, and the outlet and air inlet realize the dual purpose of liquid phase and gas phase fluid. When the gas is exchanging heat, the air is fed from the lower liquid outlet and inlet dual-purpose port and is discharged from the liquid and gas phase. The upper liquid inlet and outlet are used for the air outlet, and when liquid heat exchange is performed, the liquid is supplied from the upper liquid inlet and outlet, and the liquid is discharged from the lower liquid inlet and outlet.
5. In a word, this high-efficiency and durable titanium heat exchanger has a simple structure, high heat-exchange efficiency, can prevent the damage of the heat-exchange tubes caused by fluid impact and is suitable for use in various heat-exchange links in industry and life.