MENU

Whatsapp:86 1888888 8888

Cryogenic Oxygen Generation Plant Manufacturer

Industrial oxygen generator ‌ is a kind of equipment that uses air separation technology to produce oxygen.
The equipment mainly compresses and purifies the air, and uses molecular sieve to adsorb nitrogen, so that oxygen is enriched in the gas phase, so as to obtain oxygen with purity ≥90%. The whole system is automatically controlled by computer, and the valve is automatically switched to ensure the efficient and stable production of oxygen ‌.

Cryogenic Oxygen Generation Plant supplier

Cryogenic Oxygen Generation Plant

Cryogenic Oxygen Plant, also called liquid oxygen plant or industrial oxygen plant, features the latest cryogenic technology, producing 99.7% oxygen purity with an optional 99.99% nitrogen purity. It is a one of the most efficient, economical and reliable cryogenic oxygen plant.

Cryogenic Oxygen Plant is specifically designed for many applications in the steel industry, medical industry, brazing industry, chemical industry and many more.

is a cryogenic oxygen generation plant manufacturer that offers LOX plant that is fully automated with low maintenance. The Cryogenic Oxygen Plant machines guarantee an excellent performance at cost competitive prices.

Cryogenic Oxygen Plant

cryogenic oxygen plant is used to meet the most severe operating conditions. This is primarily used in industrial, chemical, and medical applications. Our cryogenic oxygen plant use technologically advanced equipment that helps the plant works on low pressure.

cryogenic oxygen plants are built with the latest cryogenic distillation technology. only used high quality materials in manufacturing and fabricating cryogenic oxygen plant. These products are manufactured by our experienced team of engineers. Each machine is assembled completely through rigorous inspection and testing before being shipped. We ensure first that it meet the international standards and safety codes.

cryogenic oxygen plants provide oxygen with purity as high up to 99.7%. We focused ourselves in supplying satisfaction to all our customers and provide all specific requirements. The systems come in production capacities of 20 to over 700 liters/hour. For every delivered unit, our engineers will visit to your site and assist you with the installation. Through this process, we can ensure that the unit is safe from any hazards.

Our cryogenic oxygen plants are engaged with advanced technology, smooth performance and automatic machines. Cryogenic oxygen plants are able to withstand extreme temperatures. With over 10 years of experience and technical expertise, offers a qualitative range of cryogenic oxygen plant.

cryogenic oxygen plants are designed to work properly. It also has a low maintenance, running cost and user-friendly machines. also upgrade and improve machines to reduce the risk of sudden accidents and boost up the operations. cryogenic oxygen plants are one of the most well-known items which supplied all around the world. It is approved for its reliability, efficiency, operation and ease of use.

fabricate cryogenic oxygen plants have a simple system with air compression, air purification, air separation, oxygen compression and cylinder filling. Cryogenic oxygen plants are favoured by many industries because it is economical rather than other unit. It also ensures high productivity. are committed to provide 100% satisfaction through our excellence in producing high quality products and great services.

, as a professional Air Separation Unit manufacturer and supplier, we always ensure to earn our customers satisfaction. With over the years in the industry, we provide cryogenic oxygen plant to meets the dynamic requirements of our clients.

For your inquiries and orders, please get in touch with us.

Cryogenic Oxygen Generation Plant supplier

ryogenic Oxygen Plant Manufacturer

With the system failure protection, easy installation and integration, Gas Cryogenic Oxygen Plant comes with a production capacity of 20 to over 700 liters/hour. It is the latest series of the latest models of Gas industrial oxygen plant with the latest technology and progressive design as per the Dr. Boschi of Italy.

Gas Cryogenic Oxygen Plant has a simple system with air compression, air purification, air separation, oxygen compression and cylinder filling. The rotary air compressor in Gas oxygen manufacturing process reduces expenses and ensures high productivity.

For a perfect match for your production needs, Gas Cryogenic Oxygen Plant meets the dynamic requirements in all your liquid oxygen production process.

After the air is compressed by the air compressor, after dust removal, oil removal and drying, it enters the air storage tank, enters the left adsorption tower through the air intake valve and left intake valve, the tower pressure rises, the nitrogen molecules in the compressed air are adsorbed by zeolite molecular sieve, and the unadsorbed oxygen passes through the adsorption bed and enters the oxygen storage tank through the left gas production valve and oxygen gas production valve. This process is called left suction. The duration is tens of seconds. After the end of the left suction process, the left adsorption tower and the right adsorption tower are connected through the pressure equalization valve, so that the pressure of the two towers is balanced, this process is called pressure equalization, and the duration is 3 to 5 seconds. After the end of the pressure balancing, the compressed air enters the right adsorption tower through the air intake valve and the right intake valve, the nitrogen molecules in the compressed air are adsorbed by zeolite molecular sieve, and the enriched oxygen enters the oxygen storage tank through the right gas production valve and the oxygen gas production valve, this process is called right suction, and the duration is tens of seconds. At the same time, the oxygen adsorbed by zeolite molecular sieve in the left adsorption tower is released back to the atmosphere through the pressure reduction of the left exhaust valve. On the contrary, when the left column adsorbs, the right column also desorbs. In order to completely discharge the nitrogen released from the pressure reduction in the molecular sieve into the atmosphere, oxygen is blown through a normally open reverse blow valve to purge the desorption adsorption tower and blow the nitrogen in the tower out of the adsorption tower. This process is called blowback, and it goes hand in hand with desorption. After the end of the right suction, enter the pressure balancing process, and then switch to the left suction process, and continue to follow the process, so as to continuously produce high-purity product oxygen.
The work flow of the oxygen generator is completed by the programmable controller controlling five two-position five-way pilot solenoid valves, and then the solenoid valves respectively control the opening and closing of ten pneumatic pipeline valves. Five two-position five-way pilot solenoid valves respectively control the left suction, pressure balancing, right suction state. The time flow of left suction, pressure equalization and right suction has been stored in the programmable controller. In the state of power failure, the pilot gas of the five two-position five-way pilot solenoid valves is connected to the closing port of the pneumatic pipeline valve. When the process is in the left suction state, the solenoid valve controlling the left suction is powered on, and the pilot gas is connected to the opening port of the left suction intake valve, the left suction production valve and the right exhaust valve, so that these three valves are opened to complete the left suction process and the right adsorption tower desorption. When the process is in the state of pressure balancing, the solenoid valve that controls pressure balancing is energized, and other valves are closed; The pilot gas is connected to the opening of the pressure balancing valve, which makes the valve open and completes the pressure balancing process. When the process is in the right suction state, the solenoid valve that controls the right suction is powered on, and the pilot gas is connected to the right suction intake valve, right suction production valve and left exhaust valve opening port, so that these three valves are opened to complete the right suction process and the left adsorption tower desorption. In each process, all valves except those that should be opened should be closed.