BIOGAS PURIFICATION

Purifying biogas is crucial for achieving high-quality fuel and meeting environmental standards. Our biogas purification systems are designed to effectively remove contaminants such as carbon dioxide, hydrogen sulfide, and moisture from raw biogas. By utilising advanced technologies like chemical scrubbing, adsorption, and membrane separation, we ensure that the purified biogas is suitable for energy production and meets stringent quality requirements. Our solutions focus on enhancing gas purity, improving energy efficiency, and facilitating compliance with regulatory standards, helping you optimise your biogas resources and maximise operational performance.

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Technical Specifications

Performance Metrics

Purification Efficiency: Achieves up to 99% efficiency in removing impurities such as carbon dioxide (CO₂), hydrogen sulphide (H₂S), and moisture from biogas, resulting in high-quality biomethane suitable for grid injection or commercial use.
Flow Rates: Capable of processing biogas flow rates from 100 to 50,000 standard cubic feet per minute (SCFM), adaptable for small-scale plants to large industrial operations.
Methane Recovery: Ensures methane recovery rates of up to 98%, maximising the energy content of the purified biogas and reducing greenhouse gas emissions.
Energy Consumption: Designed for low energy consumption, with optimisation that reduces operational costs by up to 20% compared to traditional biogas purification systems.

Materials Used

Membrane Technology: Utilises advanced polymeric membrane technology for efficient separation of CO₂ and other impurities, ensuring high-purity biomethane output.
Adsorption Units: Features Pressure Swing Adsorption (PSA) units made from corrosion-resistant materials such as stainless steel, ensuring durability and consistent performance in removing contaminants like H₂S and moisture.
Compression Systems: Equipped with robust compressors made from high-strength alloys, designed to handle biogas at various pressures, ensuring efficient purification and delivery.
Filtration Systems: Incorporates high-performance filtration systems with activated carbon or molecular sieves, effectively capturing trace impurities and odours, ensuring clean and odourless biomethane.

Applicable Environments

Biogas Plants: Ideal for biogas production facilities, where the purification of biogas to biomethane is essential for grid injection, vehicle fuel, or commercial energy use.
Agricultural and Livestock Operations: Suitable for farms and livestock operations that produce biogas from manure or organic waste, providing a reliable method for converting waste into valuable energy.
Wastewater Treatment Plants: Applicable in wastewater treatment facilities where biogas is generated from sludge digestion, ensuring that the purified biogas can be used for energy recovery or heating.
Landfill Gas Recovery: Designed for landfill sites, where biogas generated from organic waste decomposition can be purified and utilised as a renewable energy source.