Industrial oxygen production equipment

工业：

工业氧气制取设备

小型：

工业氧气制取设备

高纯度：

工业氧气制取设备

Industrial oxygen production equipment can be widely used in steel cutting, oxygen-rich combustion, petrochemical, electric furnace, steelmaking, glass production, paper making, ozone aquaculture, aerospace and other industries and fields. According to the different requirements of different users in different industries for the use of oxygen, Tianao provides personalized Specialized oxygen production equipment can fully meet the gas consumption requirements of different users. (Contact information) A series of pressure swing adsorption oxygen production equipment provided by Xinbang Gas (it has the advantages of low equipment cost, small size, light weight, simple operation, convenient maintenance, low operating costs, on-site oxygen production, quick switch, convenient and pollution-free, etc., and can be applied to steel Cutting oxygen-rich combustion-supporting equipment, etc.) and cryogenic oxygen production equipment (high oxygen purity, long service life of the equipment, can produce nitrogen, oxygen and argon at the same time, suitable for smooth cutting of oxygen-based steel).
Our company can choose oxygen generating equipment with an oxygen purity of /, oxygen purity of /, cryogenic oxygen generating equipment with an oxygen purity of greater than /.
The working principle of the oxygen generator
Pressure swing adsorption oxygen production is achieved by utilizing the selective adsorption characteristics of zeolite molecular sieves, using a cycle of pressure adsorption and decompression desorption, so that compressed air enters the adsorption tower alternately. Air separation to continuously produce high-purity product oxygen.
The complete system of the oxygen generator consists of the following components: compressed air purification component, air storage tank, oxygen and nitrogen separation device, oxygen buffer tank. If the oxygen buffer tank needs to be filled with steel bottles, an oxygen booster and bottle filling device are installed at the end.
The pressure swing adsorption oxygen generator uses zeolite molecular sieve as the adsorbent and uses the principles of pressure adsorption and pressure reduction desorption to adsorb and release oxygen from the air, thereby separating oxygen. Zeolite molecular sieve is a spherical granular adsorbent that is processed through a special pore processing technology. The surface and interior are covered with micropores. It is white in color. Its pore characteristics enable it to achieve excellent kinetic separations. The separation effect of the zeolite molecular sieve pair is based on the slight difference in the kinetic diameter of the two gases. The molecules have a faster diffusion rate in the micropores of the zeolite molecular sieve, while the molecular diffusion rate is slower. The diffusion of water and nitrogen in compressed air is not much different from that of nitrogen. What is finally enriched from the adsorption tower is oxygen molecules.
Working Principle of Low Temperature Air Separation Oxygen Generation Equipment
The air is sucked in from the atmosphere, filtered by the filter, and then enters the air compressor. After being compressed and cooled step by step, it enters the air pre-cooling system for pre-cooling and passes through the water The separator separates the free water in the air, and then enters the purification system to remove the water carbon dioxide and most hydrocarbons in the air.
The purified air enters the plate-fin heat exchanger in the cold box of the fractionation tower and performs heat exchange with the refluxing oxygen nitrogen and dirty nitrogen. Then a part of the air is extracted from the middle of the heat exchanger and enters the turbine expander for processing. In expansion refrigeration, part of the expanded low-temperature air enters the upper tower, and the other part bypasses and enters the waste nitrogen pipe. The remaining air is extracted from the bottom of the plate-fin heat exchanger, and is sent to the lower tower for distillation after throttling.
In the lower tower, the air is initially separated. The top is pure nitrogen and the bottom is oxygen-rich liquid air. The oxygen-rich liquid air is extracted from the bottom of the lower tower, and is sent to the middle of the upper tower after being subcooled by the cooler. After the nitrogen at the top of the lower tower is condensed into liquid nitrogen by the condensing evaporator, part of it returns to the lower tower as the reflux liquid of the lower tower. The other part is subcooled by the cooler and then throttled into the top of the upper tower as reflux of the rectification section of the upper tower. liquid.
After rectification in the upper tower, pure oxygen is finally obtained at the lower part of the upper tower. After being reheated by the heat exchanger, the oxygen is discharged out of the fractionation tower as product gas, sent into the air bag, and then compressed by the oxygen compressor, filled into bottles or used for other purposes.
Nitrogen is extracted from the top of the upper tower, reheated by the liquid nitrogen liquid-air subcooler heat exchanger, and discharged out of the fractionation tower. It is sent to the user through the process pipeline or is pressurized by a nitrogen compressor and poured into cylinders for sale.
The waste nitrogen gas is extracted from the waste nitrogen port of the upper tower. After being reheated by the heat exchanger, part of it is used as regeneration gas for the purifier, and the rest is vented.