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Our Technology 

Reducing Ambient CO2 One Box At A Time

Here at CarbonTech, we produce innovative, modular capture devices that make meeting net zero goals easy. With complete regenerative processes, we capture carbon and keep it caught. Our technology can be implemented in line or in parallel with existing carbon-emitting steps to reduce the carbon footprint made in industrial processes.

How We Do It 

Regenerative Carbon Capture 

01

Advanced Regeneration Technology

Our nanocomposite material can undergo vacuum thermal regeneration to remove Co2 for storage and then return to full adsorptive capacity. This allows the same sample to be used nearly indefinitely. This means cheaper costs, less maintenance, and faster capture.

02

Carbon Recycling through Biochar

Biochar can be treated in similar ways to pull the CO2 off the surface. In this form, it can be reused to capture more carbon. There will come a point when the biochar can no longer perform as a sorbent due to the regeneration process. At this time, however, it is ready to be used as a fertilizer. This is how we return the carbon from the air, back to the flora that use it. 

Why We Do It Better Than Anyone Else

Efficient Carbon Capture And Regeneration

Our regenerative approach sets us apart. The nanocomposite material we use can undergo vacuum thermal regeneration, ensuring it maintains full adsorptive capacity over multiple cycles. This means minimal downtime between CO2 capture and material reuse, significantly reducing operational costs and increasing efficiency. By employing a cyclic design alternating between biochar and nanocomposite, we achieve near-complete carbon capture with little to no maintenance required.

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Biochar: Accessible And Effective

Biochar, derived from readily available plant waste like corn husks and coconut shells, serves as a highly effective carbon-capturing agent. Packed into adsorbers, biochar can capture up to 60% of CO2 from ambient air. Once saturated, it can be regenerated for reuse or repurposed as fertilizer. This dual functionality not only maximizes carbon capture efficiency but also supports sustainable waste management and closes the carbon cycle within our operations.

Optimized Cost-Efficiency

By strategically combining biochar and nanocomposite materials, we achieve optimal cost-efficiency without compromising on performance. This balance allows us to limit your costs while delivering superior carbon capture capabilities. Our solutions are designed to integrate seamlessly into existing processes, eliminating the need for expensive installation and large-scale infrastructure.

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Innovative Sequestration Methods

Unlike traditional methods that rely on underground wells, our technology offers versatile sequestration options. We capture ambient carbon directly from the air, making concentrated CO2 streams readily accessible for further processing or storage. This flexibility makes our solutions highly sought-after in industries seeking effective, sustainable carbon management solutions.

What We Do

Reducing Emissions Affordably And Sustainably 

Our purifying sorbent, a nanocomposite material, can be regenerated without losing its absorption capacity. This cyclic design allows for continuous operation: while half of our adsorbers capture CO2, the other half regenerate their sorbents. This approach minimizes maintenance, maximizes reuse of materials, and reduces operational costs over time.

Convert Waste Into Fertilizer

We utilize plant waste like corn husks and coconut shells to create biochar, a highly effective carbon-capturing material. Packed into adsorbers, biochar can capture up to 60% of CO2 from ambient air. Once spent, biochar can be regenerated for reuse or returned as fertilizer, closing the carbon cycle within our processes.

Seamless Integration Into Existing Processes

Our technology efficiently captures carbon directly from ambient air, eliminating the need for extensive integration machinery. Whether for continuous carbon capture or to concentrate CO2 streams, our solution is flexible and straightforward to implement within existing industrial setups

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