Green Environmental Engineering (GEE) is at the forefront of sustainable innovation, offering cutting-edge carbon capture solutions specifically engineered for Malaysia’s industrial sectors. Our proprietary PureFlux™ Carbon Capture Technology provides a cost-effective, high-efficiency, and scalable approach to reducing greenhouse gas (GHG) emissions.

As Malaysia moves closer to its net-zero goals under the National Energy Transition Roadmap (NETR) and the CCUS Act 2025, PureFlux™ helps companies ensure regulatory compliance, reduce environmental impact, and capitalize on emerging carbon credit opportunities.

What is PureFlux™?

PureFlux™ is GEE’s flagship carbon capture solution, utilizing advanced Calcium Looping (CaL) technology. Unlike conventional amine-based systems that rely on chemical solvents, PureFlux™ uses calcium-based sorbents in a high-temperature chemical cycle to isolate CO₂ from flue gas.

Technology Comparison: PureFlux™ vs. Conventional Systems
Feature PureFlux™ (Calcium Looping) Traditional Amine-Based Systems
Capture Efficiency Up to 90% 85% – 95%
Operating Cost ~$23.70 per ton CO₂ $35.00 – $96.00 per ton CO₂
Consumables Recyclable Natural Sorbents Energy-intensive chemical solvents
Energy Penalty Lower (6% – 8%) Higher (9% – 12%)
Environmental Impact Low (Solvent-free) Risk of solvent degradation & toxicity
Maintenance Low (Multi-pollutant removal) High (Corrosion & fouling risks)

Working Mechanism: How It Works

The carbon capture process involves three main stages: Separation, Compression, and Utilization/Storage. GEE offers two primary process flows to suit your facility’s specific needs.

Process Flow Matrix
Process Type Primary Sorbent/Agent Temperature Range Best For
Calcium Looping Calcium Oxide (CaO) 600°C – 950°C Heavy industry, Cement, Steel, WTE
Mixed Solvent Inorganic Salts (K₂CO₃) Moderate Existing plants with limited space
1. The Calcium Looping Cycle

This regenerative process uses the reversible reaction between Calcium Oxide and Carbon Dioxide.

  • Carbonation: Flue gas reacts with CaO to capture CO₂.
    CaO + CO₂ → CaCO₃ (exothermic at ~650°C)
  • Calcination: The CaCO₃ is heated to release pure CO₂ and regenerate the sorbent.
    CaCO₃ → CaO + CO₂ (endothermic at ~900°C)
2. Mixed Solvent Process

For plants requiring specific compatibility, we use inorganic salts (such as potassium carbonate) in an absorber-regenerator setup. The salts absorb CO₂ into a liquid stream, which is then heated to release concentrated CO₂ for storage or industrial use.

Carbon Capture Turnkey Services

GEE provides a comprehensive end-to-end service to ensure your transition to carbon-neutral operations is seamless and profitable:

  • Feasibility & Emissions Profiling: Detailed site assessment and cost-benefit analysis.
  • Custom Engineering: System design tailored to your flue gas composition and capture targets.
  • Fabrication & Installation: Quality-controlled manufacturing and on-site implementation.
  • Training & Commissioning: Full system startup support and operator knowledge transfer.
  • Real-Time Monitoring: Ongoing performance optimization and technical support.
  • Carbon Credit Monetization: Expert guidance in the verification and certification procedure to turn your captured carbon into financial gains.

Start Your Decarbonization Journey

Lower your emissions and unlock new revenue streams with Malaysia’s most efficient carbon capture technology.