Compressor for CO2 - CVG Series

This compressor series is designed for applications requiring CO₂ compression and treatment. Its compact and modular system allows for quick and simplified installation while ensuring high performance and reliable operation across various industrial settings.

Key parameters:

Inlet pressure: up to 1000 mbar(g)

Operating pressure: up to 25 bar(g)

Free gas delivery: up to 6,000 Nm³/h

Absorbed power: up to 700 kW

This series of compressors is designed for applications requiring CO₂ compression and treatment. The compact and modular system allows for quick and simplified installation while ensuring high performance and reliable operation across various industrial settings.

CO₂ liquefaction
Methanation
Food application
Biogas upgrading
CO₂ recycling

CO₂ compression stations, mounted on easy-to-handle skids, are equipped with rotary screw compressors or multistage pumps driven by inverter-controlled electric motors.
All components in contact with the gas are made of stainless steel and properly protected to withstand CO₂ and other potentially aggressive contaminants present in the gases.
The average concentration of CO₂ in the atmosphere is 413 ppm/m³, caused by the massive use of fossil fuels over the past two centuries. It is increasing, worsening the greenhouse effect.
CO₂ can be stored and reused in numerous applications, including agriculture, food industry, chemical production, material manufacturing, laser cutting, combustion, and dry ice production.
Adicomp provides high-tech compressors for gas recirculation in upgrading, methanation, liquefaction, and food-grade applications such as oil or food-grade CO₂. It offers “plug & play” packages to compress and supply CO₂ according to specific needs.

INLET PRESSURE	OPERATING PRESSURE	FREE GAS DELIVERY	ADSORBED POWER
Up to 1000 mbar(g)	Up to 25 bar(g)	Up to 6.000 Nm3/h	Up to 700 kW

EU

Classification of hazardous areas: ATEX Zone II
Pressure vessel code compliance: PED
Electrical Code Compliance: ISO 60079
Certified manufactoring organization: ISO 9001:2015 – ISO 14001:2015 – ISO 45001:2018

US

Hazardous Area Classification: Class 1, Div 2 as defined per NEC, NFPA70
Pressure Vessel Code Compliance: ASME
Electrical Code Compliance: UL/Control panels and assemblies
Certified manufactoring organization: ISO 9001:2015 – ISO 14001:2015 – ISO 45001:2018
UL 508A, Standard for Industrial Control Panels
UL 698A, Standard for Industrial Control Panels Relating to Hazardous (Classified) Locations
NFPA 70 National Electric Code
ASME B31.3 – Process Pipes.

CA

Hazardous Area Classification: Class 1, Div 2 as defined per NEC, NFPA70
Pressure Vessel Code Compliance: ASME -CRN
Electrical Code Compliance: UL/Control panels and assemblies
Certified manufactoring organization: ISO 9001:2015 – ISO 14001:2015 – ISO 45001:2018
UL 508A, Standard for Industrial Control Panels
UL 698A, Standard for Industrial Control Panels Relating to Hazardous (Classified) Locations
NFPA 70 National Electric Code
ASME B31.3 – Process Pipes.

BR

Classification of hazardous areas: ATEX Zone II
Pressure Vessel Code Compliance: ASME – NR13
Electrical code compliance: ISO 60079 – NR10 (Electrical panels and assemblies)
Certified manufactoring organization: ISO 9001:2015 – ISO 14001:2015 – ISO 45001:2018
ASME B31.3 – Process Pipes.

IN

Hazardous Area Classification: ATEX Zone II (HEAVY)
Pressure Vessel Code Compliance: ASME
Electrical code compliance: ISO 60079 (Electrical panels and assemblies)
Certified manufactoring organization: ISO 9001:2015 – ISO 14001:2015 – ISO 45001:2018
ASME B31.3 – Process Pipes.