The VPSA oxygen generator produces enriched oxygen from the atmosphere. It works by using a blower to transport filtered air into an adsorber. The special molecular sieve in the adsorber then absorbs the nitrogen components, while oxygen is enriched and discharged as the product. After a period of time, the saturated adsorbent must be desorbed and regenerated under vacuum conditions. To ensure continuous production and oxygen supply, the system will typically include multiple adsorbers, with one adsorbing while another desorbs and regenerates, cycling between these states.
VPSA oxygen generators can be used in the following industries
• Iron and steel industry: Blowing high purity oxygen into converters reduces melting time and improves steel quality by oxidising impurities such as carbon, sulphur, phosphorus and silicon.
• Non-ferrous metals industry: Smelting of steel, zinc, nickel and lead requires oxygen enrichment. The pressure swing adsorption oxygen production system is the ideal oxygen supply source for these processes.
• Chemical industry: The use of oxygen in ammonia production improves the process and increases fertiliser yield.
• Power industry: Coal gasification and combined cycle power generation.
• Glass and glass fibre: Oxygen enriched air fed into glass furnaces and combusted with fuel can reduce NOx emissions, save energy, reduce consumption and improve glass
• Our company uses special lithium-based zeolite adsorbents for highly efficient oxygen production and nitrogen adsorption. These adsorbents have a high oxygen-nitrogen separation coefficient, large dynamic nitrogen adsorption capacity, more stable technical performance, and lower energy consumption.
• Our specially designed radial flow adsorption towers guarantee a service life of over 20 years, ensuring uniform flow distribution (empty tower linear velocity <0.3 m/s), lower energy consumption, and more stable product oxygen purity. Shanghai LifenGas has a professional design team with many years of experience in designing, manufacturing, and filling both axial and radial adsorption towers, ensuring efficient and stable operation of core oxygen equipment.
• We use a gradient equalization process to minimize the effect of airflow on the molecular sieve, extending its lifespan, reducing bed pressure fluctuations, preventing molecular sieve powder formation and improving air utilization and energy efficiency.
• Our automatic control design, combined with extensive process operation experience, reduces pressure and concentration fluctuations in the adsorption column and supports remote plant optimization and management.
• A unique noise reduction design scheme ensures that noise levels outside the plant boundary meet the plant's environmental protection requirements.
• Our accumulated experience in energy management and maintenance of VPSA oxygen generators under contract reduces maintenance costs, ensures high production rates and extends the overall lifespan of the system.