PRE + POST COMBUSTION
Our expertise in Pre- and Post-Combustion Carbon Capture is pivotal for reducing carbon emissions in your energy production processes. Pre-combustion capture involves removing CO₂ before the fuel is burned, typically in gasification processes, while post-combustion capture focuses on extracting CO₂ from flue gases after combustion has occurred. These technologies are critical in enabling cleaner energy production, reducing the carbon footprint, and helping you meet stringent environmental regulations. Our advanced carbon capture systems are designed for high efficiency and integration with existing operations, ensuring that CO₂ is effectively captured and stored or utilised. By implementing our Pre- and Post-Combustion Carbon Capture solutions, you can significantly lower your emissions, contribute to a more sustainable future, and maintain compliance with evolving industry standards.
Technical Specifications
Performance Metrics
Capture Efficiency: Achieves up to 90% efficiency in capturing CO₂ emissions, significantly reducing the carbon footprint of industrial processes.
Flow Rates: Capable of processing flue gas or syngas flow rates from 1,000 to 100,000 standard cubic feet per minute (SCFM), accommodating various scales of operation.
CO₂ Purity: Delivers CO₂ purity levels up to 99.9%, making the captured carbon suitable for utilisation or storage applications.
Pressure Range: Operates effectively under a wide pressure range, from atmospheric pressure to 30 bar, ensuring flexibility in integration with different power generation systems.
Materials Used
Absorption Towers: Constructed from corrosion-resistant alloys or stainless steel, designed to withstand the harsh chemical environments typical in carbon capture processes.
Membranes and Solvents: Utilises advanced, high-performance materials for membranes and chemical solvents to enhance CO₂ capture efficiency and reduce operational costs.
Compression Equipment: Features robust, high-strength materials in compressors and pumps, ensuring reliability and longevity in high-pressure applications.
Piping and Valves: Incorporates corrosion-resistant piping and valves to handle the harsh chemicals and gases involved in the carbon capture process, ensuring minimal maintenance.
Applicable Environments
Coal and Gas Power Plants: Ideal for retrofitting existing coal and gas-fired power plants, where efficient CO₂ capture is critical for meeting emissions regulations and reducing environmental impact.
Industrial Facilities: Suitable for use in industrial facilities such as cement, steel, and chemical plants, providing effective carbon capture to lower emissions and comply with environmental standards.
Enhanced Oil Recovery (EOR): Applicable in Enhanced Oil Recovery projects, where captured CO₂ can be injected into oil reservoirs to improve extraction efficiency.
Remote and Harsh Locations: Engineered for operation in remote and challenging environments, offering reliable performance with minimal maintenance even in extreme conditions.