How to choose a vacuum pump When choosing a vacuum pump, note the following: 1. The working pressure of the vacuum pump should meet the ultimate vacuum and working pressure requirements of the vacuum equipment. Such as: vacuum coating requires 110-5mmHg vacuum, the vacuum of the selected vacuum pump at least 510-6mmHg. The vacuum level of the pump is usually chosen to be one half to one order of magnitude higher than the vacuum level of the vacuum equipment. 2. Correctly select the working point of the vacuum pump. Each pump has a certain working pressure range, such as: the diffusion pump is 10-3~10-7mmHg. In such a wide pressure range, the pumping speed varies with the pressure, and its stable working pressure range is 510-4. ~510-6mmHg. Therefore, the operating point of the pump should be selected within this range, and it cannot be allowed to work long-term at 10-8mmHg. Another example is the titanium sublimation pump can work under 10-2mmHg, but its working pressure should be less than 110-5mmHg as well. 3. The vacuum pump should be able to drain all the gas generated during the vacuum equipment process under its operating pressure. 4, the correct combination of vacuum pumps. Due to the selective pumping of the vacuum pump, a pump may sometimes be selected that does not meet the pumping requirements. Several types of pumps are required to be combined to supplement each other to meet the pumping requirements. For example, a titanium sublimation pump has a high pumping speed for hydrogen, but it cannot whirl, and a three-pole sputtering ion pump (or a bipolar asymmetric cathode sputtering ion pump) has a certain pumping speed for argon. Combined, it will make the vacuum device a better degree of vacuum. In addition, some vacuum pumps cannot work under atmospheric pressure and require pre-vacuum; some vacuum pumps have lower outlet pressures than atmospheric pressure and require a foreline pump, so they all need to be combined. 5, vacuum equipment requirements for oil pollution. If the equipment strictly requires no oil, various oil-free pumps should be selected, such as water ring pumps, molecular sieve adsorption pumps, sputter ion pumps, and cryogenic pumps. If the requirements are not strict, you can choose an oil pump, plus some anti-oil pollution measures, such as adding cold traps, baffles, oil traps, etc., can also achieve clean vacuum requirements. 6. Understand the components of the gas being pumped. The gas contains no condensable vapor, no particles, and no corrosion. When selecting a vacuum pump, you need to know the gas composition and select the appropriate pump for the pumped gas. If the gas contains vapors, particles, and corrosive gases, additional equipment such as condensers, dust collectors, etc., should be installed on the inlet line of the pump. 7. How the oil vapor discharged from the vacuum pump affects the environment. If the environment does not allow contamination, an oil-free vacuum pump can be selected, or the oil vapor can be discharged outdoors. 8. The vibration generated by the vacuum pump has no effect on the process and environment. If the process does not allow it, choose a non-vibrating pump or take anti-vibration measures. 9, vacuum pump price, operation and maintenance costs. Compared to other heating methods, inverter pool heat pumps are generally more energy-efficient and cost-effective in the long run with advanced technology. They can also operate in a wider range of temperatures and can heat water more gradually and evenly, which can lead to a more comfortable swimming experience. UWO offers a wide range of high-efficient inverter pool heat pumps for above ground pools. Swimming Pool Heat Pump,Pool Heat Pump,Portable Pool Heat Pump,Refrigerant Swimming Pool Heat Pump FOSHAN UWOTEC NEW ENERGY CO., LTD. , https://www.uwo-heatpump.com