Carbon Storage for a Sustainable Futurei
Biochar sequestration is an innovative method of permanently storing carbon dioxide (CO₂) in the soil. This process involves the use of biochar—a material produced during hydrothermal carbonization (HTC) or biomass pyrolysis.
Thanks to its stable chemical structure, biochar enables long-term carbon retention in the soil, lasting hundreds or even thousands of years. By removing CO₂ from the atmosphere, it actively contributes to mitigating climate change.
TECHNOLOGY ADVANTAGES
CO₂ Emissions Reduction
Soil Quality Improvement
Erosion Control
Supporting the Circular Economy
HOW IT IS WORK?
Syngas, rich in hydrogen, is subjected to advanced separation technologies that enable the efficient extraction of pure hydrogen. The methods used include:
BIOCHAR PRODUCTION
Biochar is produced by converting biomass under high temperatures and limited oxygen conditions. During this process, the carbon contained in the biomass is bound into a stable form.
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BIOCHAR APPLICATION TO SOIL
The finished biochar is applied as a soil amendment, improving soil structure, water retention, and nutrient availability—while also serving as a long-term carbon sink.
LONG- TIME STORAGE
Biochar decomposes very slowly in the soil, enabling long-term removal of CO₂ from the atmosphere and reducing greenhouse gas emissions.
Applications of Biochar
01.AGRICULTURE
A soil amendment that improves crop yields, reduces the need for synthetic fertilizers, and enhances plant resilience to environmental stress.
02. LAND RECLAMATION
Biochar helps restore the functionality of degraded lands, such as wastelands, industrial areas, and former mining sites.
03. GREEN BUILDIG
Biochar can be used in the production of concrete and other construction materials, serving as a permanent carbon sink while also enhancing the properties of these materials.