New sorbent technology combined with novel Systems Design
Our proprietary, patent-pending direct air and carbon capture system leverages advanced electrochemical methods to efficiently extract CO₂ from both ambient air and industrial sources. Engineered for versatility, this breakthrough climate technology aims to remove 50 million tonnes of CO₂ annually by 2050.
2026
The longer-term technical roadmap is confirmed. The initial commercial pilot is designed and build commences in 2025.
2024
The Prototype is built with help from a wide range of experts in an ever-growing partner eco-system. Philip and Dylan go on to co-found Carbonbit Technologies Limited to commercialise their innovations.
2023
Philip and Dylan focus on improving their original concepts and designing the MVP alongside expert partners, whilst also submitting their patent application in December.
2022
Philip begins an R&D project in collaboration with Lancaster University. During this time, he meets Dylan, a nuclear scientist completing his PhD. Together they refine their ideas and develop a design for their core technology.
2021
Philip Hargreaves, a leading sustainability consultant with more than 18 years’ experience, recognises the need to take urgent action at scale to address climate change.
Captures and removes already emitted CO2 from ambient air.
Captures CO2 from industrial processes before reaching the atmosphere.
Modular technology designed to be deployed easily.
CO2 removed or captured can be permanently stored underground or in products such as concrete or asphalt.
CO2 can also be used in the development of products such as carbonated soft drinks bottles and eFuels for the aviation or maritime sectors.
Lower operational costs compared to traditional systems
Scalability and modularity for small to large-scale operations
Renewable energy-powered processes for remote deployment
Focus on circularity
Minimum downtime
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