Bio Gas Compressor

Bio Gas Compressor

The Colt Bio Gas Compressor range includes low, medium, and high-pressure reciprocating compressors/boosters designed for biogas and CBG applications. With flow capacities from 100 to 2100 SCMH and pressure ranges up to 250 bar, these compressors are ideal for raw biogas boosting, PSA/membrane feeding, cylinder filling, and cascade systems, ensuring reliable and efficient gas compression across the biogas value chain.

WHY COLT RECIPROCATING GAS COMPRESSORS?

Colt Horizontal Balanced Opposed Piston Air & Gas Compressors are engineered for high performance, reliability, and energy efficiency across diverse industrial applications. Featuring a modular design, these compressors offer capacities from 3 to 176 m³/min, pressures up to 150 kg/cm²(g), and configurations of up to 6 stages. Designed in broad accordance with API 618 standards, Colt provides customized compressor solutions tailored to specific process requirements, ensuring superior performance, lower operating costs, and long-term reliability. Supported by expert engineering, installation, and commissioning services, Colt delivers complete end to-end compressor solutions.

Product Details

Colt BG - L Series
(Low Pressure)

• Type: Screw compressor
• Pressure: 0 - 10 bar
• Application:
   - Raw biogas boosting
   - Flow range: 200 - 2100 SCMH

Colt BG - M Series
(Medium Pressure)

• Type: Screw / booster
• Pressure: 0 - 40 bar
• Application:
   - PSA / membrane feeding
   - Flow range: 200 - 2100 SCMH

Colt BG - H Series
(High Pressure CBG)

• Type: Reciprocating
• Pressure: 200 - 250 bar
• Application:
   - Cylinder filling
   - Cascade systems
   - Flow range: 100 - 400 SCMH

Highlighted Features

Endurance

• Reliability and efficiency in adverse conditions
• High altitude performance
• High temperature operation

Reliable

• Pre-tested compressor packages
• Extensive testing for torsional and inertia forces
• Low vibration design
• Advanced PLC-based control system

Easy to Install

• Ready-to-install package for quick startup
• No special foundations or anti-vibration precautions required
• Compact footprint
• Minimal water and electrical connections

Energy Efficient

• Optimized design for maximum flow per kW
• Lower total operating cost
• Reduced life cycle cost