Power-Efficient Gas Plant engineered for high-performance, reliability, and long-term value.
Oxygen/Nitrogen Gas Plant
Oxygen Gas Plants
Nitrogen Gas Plants
Oxygen Gas Plant
Power-Efficient Gas Plant engineered for high-performance, reliability, and long-term value.
Sanghi Overseas delivers world-class Oxygen and Nitrogen gas plants designed for industrial, medical, and specialty applications. Built on advanced cryogenic air separation technology, our plants offer exceptional purity, low power consumption, and dependable 24/7 operation. With 1100+ installations across 90+ countries, Sanghi Overseas plants are trusted for their engineering supremacy, operational stability, and proven field performance.
Oxygen Gas Plants
Our Oxygen Gas Plants are engineered to be safe, economical, and exceptionally
power-efficient — making them ideal for continuous industrial operation.
Key Features
Medium Operating Pressure
Medium Operating Pressure Oxygen Plants operate at just 32–35 kg/cm², significantly reducing energy consumption
Cryogenic Liquid Oxygen Pump
Enables seamless cylinder filling of dry gaseous oxygen at desired pressure of up to 200 kg/cm²g (Bar)
Integrated Molecular Sieve Dryer
Removes moisture, CO₂, acetylene, hydrocarbons, and other impurities.
Fast Start-Up
Requires only ~8 hours to resume production after the defrost cycle.
Dual Production Capability
Simultaneously produces high-purity Oxygen (up to 99.6%) & up to 99.9999% Nitrogen without additional cost.
Compact Layout
Complete plant and cylinder filling station can be accommodated within a compact footprint.
Performance Advantages
1.0 kWh per m³ of oxygen for 250 cu.m/hr capacity and above, under normal continuous operation — one of the lowest energy profiles in the industry.
Output typically exceeds rated capacity due to efficient design and high-quality materials
Super-efficient expansion engine ensures rapid cooling, reduced startup time, and long-term power savings.
How It Works (Cryogenic Air Separation)
Atmospheric air is compressed, cooled, purified through molecular sieves, and passed t