Advanced Technology

Direct Air Capture Systems That Deliver Results

Feature

Our proprietary carbon capture technology combines innovative sorbent materials with optimised process engineering to efficiently remove CO₂ from ambient air. Designed for industrial-scale deployment, our systems deliver consistent performance whilst minimising energy consumption and operational complexity.

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Technical Excellence

Advanced Carbon Capture Capabilities

Our technology platform integrates multiple innovations to deliver superior performance, efficiency, and reliability in atmospheric CO₂ removal.

Proprietary Sorbent Technology

Advanced materials engineered for selective CO₂ capture with high binding capacity, rapid cycling times, and exceptional durability under continuous industrial operation conditions.

Optimised Heat Management

Integrated heat recovery systems capture and reuse thermal energy throughout the capture cycle, significantly reducing overall energy requirements.

Modular System Design

Standardised components allow for flexible configuration and easy scaling from small pilot units to large industrial installations.

Continuous Operation

Designed for 24/7 operation with automated control systems that maintain optimal performance with minimal human intervention required.

Technical Process

How Our Carbon Capture Technology Works

Our direct air capture process uses a carefully engineered sequence of operations to efficiently extract and concentrate CO₂ from ambient air.

  1. 01

    Atmospheric Air Processing

    Large-volume air handling systems draw ambient air through pre-filtration stages that remove dust, moisture, and other contaminants whilst maintaining optimal flow rates for downstream processing.

  2. 02

    Selective CO₂ Adsorption

    Proprietary solid sorbent materials capture CO₂ molecules from the processed air stream through selective chemical adsorption, allowing nitrogen and oxygen to pass through unchanged.

  3. 03

    Thermal Regeneration Cycle

    Controlled heating releases captured CO₂ from the sorbent materials, regenerating them for the next capture cycle whilst concentrating the CO₂ for collection and processing.

  4. 04

    CO₂ Purification & Delivery

    Released CO₂ undergoes final purification and compression to meet specifications for permanent storage, industrial use, or conversion into sustainable products and materials.

Technical Questions

Understanding Our Carbon Capture Technology

Common questions about how our direct air capture systems work and their performance characteristics.

How much CO₂ can your systems capture per day?
Our modular systems are designed to capture between 1 to 1,000 tonnes of CO₂ per day depending on configuration. Individual modules can be combined to achieve higher capture rates for large-scale industrial applications. Actual performance depends on ambient conditions, system configuration, and operational parameters.
What energy sources can power the carbon capture process?
Our systems are designed to operate with various energy sources including renewable electricity, waste heat from industrial processes, and grid power. The modular design allows for integration with solar, wind, or other renewable energy systems to minimise the carbon footprint of the capture process itself.
How do you ensure the captured CO₂ remains permanently removed?
We work with certified geological storage providers and utilisation partners to ensure captured CO₂ is either permanently stored underground or converted into long-lasting products. All storage and utilisation pathways are verified through established monitoring and reporting protocols.
What maintenance requirements do your systems have?
Our systems include automated monitoring and predictive maintenance capabilities that minimise manual intervention. Routine maintenance typically involves periodic replacement of filter elements and sorbent materials, with major overhauls scheduled annually. Remote monitoring allows for proactive maintenance planning.