Oxygen Plant

Product Details:

Oxygen Gas Plant (10–100 Nm³/hr) What this capacity means

• 10 Nm³/hr ≈ suitable for small workshops, laboratories, clinics

• 30–60 Nm³/hr ≈ hospitals, metal fabrication, glass units

• 80–100 Nm³/hr ≈ continuous industrial or medical oxygen supply

(1 Nm³ ≈ 1,000 liters of oxygen at standard conditions)

Common Technology Used 🔹 PSA (Pressure Swing Adsorption) – Most Popular

• Oxygen purity: 90–95%

• Uses zeolite molecular sieves

• Low operating cost

• Continuous on-site generation

Cryogenic plants are not economical at this low capacity.

Typical Technical Specifications Key Components

• Air compressor

• Air dryer & filters

• PSA oxygen generator

• Oxygen buffer tank

• Oxygen booster (if filling cylinders)

• PLC control panel

Applications

• 🏥 Hospitals & medical oxygen supply

• 🔧 Metal cutting & welding

• 🧪 Laboratories & R&D

• 🧱 Glass & ceramic industries

• 🌱 Aquaculture & wastewater treatment

Additional Information:

• Item Code: O2plant
• Production Capacity: 10
• Delivery Time: 4-6 weeks

Oxygen Gas Plant (10–100 Nm³/hr) What this capacity means

• 10 Nm³/hr ≈ suitable for small workshops, laboratories, clinics

• 30–60 Nm³/hr ≈ hospitals, metal fabrication, glass units

• 80–100 Nm³/hr ≈ continuous industrial or medical oxygen supply

(1 Nm³ ≈ 1,000 liters of oxygen at standard conditions)

Common Technology Used 🔹 PSA (Pressure Swing Adsorption) – Most Popular

• Oxygen purity: 90–95%

• Uses zeolite molecular sieves

• Low operating cost

• Continuous on-site generation

Cryogenic plants are not economical at this low capacity.

Typical Technical Specifications Key Components

• Air compressor

• Air dryer & filters

• PSA oxygen generator

• Oxygen buffer tank

• Oxygen booster (if filling cylinders)

• PLC control panel

Applications

• 🏥 Hospitals & medical oxygen supply

• 🔧 Metal cutting & welding

• 🧪 Laboratories & R&D

• 🧱 Glass & ceramic industries

• 🌱 Aquaculture & wastewater treatment

Typical Technical Parameters 🛠️ Core Components

1. Air Compressor – supplies clean compressed air

2. Pre-Treatment Package – filters + refrigerated dryer + moisture traps

3. PSA Oxygen Generator – zeolite molecular sieves tuned for high purity

4. Oxygen Buffer Tank – stabilizes flow & balances demand

5. Oxygen Booster (Optional) – for higher delivery pressure / cylinder filling

6. Control Panel – PLC with process monitoring & safety interlocks

🚀 Why PSA for 99% O₂?

✅ On-site generation eliminates supply risk from cylinders/cryogenic deliveries
✅ Lower operating cost vs purchased cylinders
✅ Modular, expandable design
✅ Reliable continuity for industrial processes
✅ Fast start/stop and flexible output

Note: Cryogenic (air separation) plants are typically only cost-effective above ~200–300 Nm³/hr, so PSA is the right choice here.

📊 Typical Operating Conditions

• Operating Pressure: 4–10 bar (standard for process usage)

• Purity Control: Automatic purity monitoring

• Oxygen Recovery: ~30–40%

• Typical Power: ~1.0–1.3 kW per Nm³/hr

Actual values vary by manufacturer & configuration.

📌 Sizing Guidance

To choose the correct capacity, estimate your average and peak oxygen demand:

👉 Let me know your actual flow requirement (Nm³/hr or kg/hr) and whether you’ll be using for cutting, combustion processes, or other equipment, and I can suggest the exact plant size.