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| Application Fields: | New Energy |
| Certification: | ISO |
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High Purity Output: Produces ultra-high-purity liquid oxygen (LOX) and liquid nitrogen (LIN), essential for industries like healthcare, electronics, and aerospace, where contamination risks must be minimized.
Energy Efficiency: Optimized cryogenic processes leverage advanced heat exchangers and distillation columns, minimizing energy consumption per unit of gas produced, especially in large-scale operations.
Scalability & Capacity: Designed for both small and large production volumes, these plants can meet diverse demands, from industrial gas supply chains to specialized medical or research applications.
Reliable & Continuous Operation: Robust design ensures 24/7 operation with minimal downtime, critical for industries requiring uninterrupted gas supply, such as steelmaking or chemical manufacturing.
Cost-Effective Bulk Production: Economical for high-volume production due to lower operational costs over time, despite higher initial capital investment.
Environmental Sustainability & Energy Recovery:
No chemical additives are used; separation relies on physical processes (liquefaction and fractional distillation).
Waste cold energy can be recovered and reused, reducing overall carbon footprint.
Versatility in Product Range: Can co-produce argon, krypton, xenon, and other rare gases by adjusting distillation parameters, adding value to operations.
Advanced Safety Features: Built-in safeguards (pressure relief systems, leak detection, and automated shutdown protocols) ensure safe handling of cryogenic liquids and high-pressure equipment.
Ease of Storage & Transport: Liquid oxygen and nitrogen have higher density than gaseous forms, enabling efficient long-term storage and transportation in insulated tanks.
Automation & Precision Control: Modern plants integrate PLC/DCS systems for real-time monitoring, precise adjustments, and remote operation, reducing human error and enhancing productivity.
Compliance with Industry Standards: Meets stringent quality and safety regulations (e.g., ISO, FDA, and industrial gas standards), ensuring suitability for medical, food, and pharmaceutical applications.
Key Applications:
Medical: Liquid oxygen for respiratory therapies and hospitals.
Industrial: LIN for inerting, freezing, and metal processing; LOX for combustion and oxidation processes.
Technology: Ultra-pure gases for semiconductor manufacturing and electronics cooling.
These advantages make cryogenic air separation plants the backbone of industrial gas production, balancing efficiency, reliability, and adaptability to evolving market needs.
Enquiry Sheet
| Item | Unit | Parameter | Remark |
| Average atmospheric pressure |
kPa | The annual average | |
| Average atmospheric temperature |
ºC | The annual average | |
| The average relative humidity of the atmosphere |
% | The annual average | |
| Height above sea level | m | ||
| Power supply conditions |
V | ||
| Hz | |||
| Point of use | |||
| Item | Unit | Output | Pressure barG | Purity | Remark |
| Oxygen | Nm³/h | ||||
| Liquid Oxygen | L/h | ||||
| Nitrogen | Nm³/h | ||||
| Liquid Nitrogen | L/h | ||||
| Argon | Nm³/h | ||||
| Liquid Argon | L/h |
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