Our Technologies
At ExxCarbon, we leverage cutting-edge technologies to drive sustainable solutions for agriculture, waste management, and climate action. Our innovative processes are designed to reduce greenhouse gas emissions, enhance resource efficiency, and contribute to a circular bioeconomy. Explore the technologies that power our mission to create a greener, more sustainable future.
Slow Pyrolysis of Biomass
Transforming Biomass into Sustainable Resources
Slow pyrolysis is a thermochemical process that decomposes biomass at moderate temperatures (typically 300–600°C) in a low-oxygen environment. This process produces three key outputs: biochar, bio-oil, and syngas, each with unique environmental and industrial benefits.
Biochar
A stable form of carbon that can sequester carbon in soils for centuries, improving soil fertility and water retention.
Bio-oil and Syngas
Renewable energy sources that can replace fossil fuels, reducing reliance on non-renewable resources.
Carbon Sequestration
Biochar locks away carbon, mitigating greenhouse gas emissions.
Waste Management
Converts agricultural and forestry residues into valuable products, reducing waste.
Circular Bioeconomy
Supports sustainable practices by transforming organic waste into energy and soil-enhancing materials.
Plasma Gasification of Waste
Revolutionizing Waste-to-Energy Solutions Plasma gasification is an advanced process that uses extremely high temperatures (above 3,000°C) generated by plasma torches to convert waste into syngas and a vitrified, non-toxic slag. This technology breaks down waste at the molecular level, ensuring complete decomposition and minimizing environmental impact.
Syngas
A stable formA mixture of hydrogen and carbon monoxide that can be used to generate electricity or produce synthetic fuels.of carbon that can sequester carbon in soils for centuries, improving soil fertility and water retention.
Vitrified Slag
A safe, glass-like byproduct that can be used in construction or other industrial applications.
Waste Reduction
Biochar locks away carbon, mitigating greenhouse gas emissions.
Renewable Energy
Converts agricultural and forestry residues into valuable products, reducing waste.
Climate Action
Minimizes greenhouse gas emissions from traditional waste disposal methods.
Supercritical Water Oxidation and Gasification
Efficient Treatment of Hazardous and Wet Waste Supercritical water oxidation (SCWO) and gasification utilize water at high temperatures and pressures (above 374°C and 22 MPa) to break down organic waste into CO₂, water, and energy-rich gases like hydrogen and methane. This process is highly effective for treating hazardous and wet waste streams.
Efficient Waste Treatment
Converts complex organic waste into simple, non-toxic byproducts.
Energy Recovery
Generates clean energy from waste, reducing the need for fossil fuels.
Pollution Prevention
Eliminates toxic pollutants and prevents methane emissions from waste decomposition.
Sustainable Waste Management
Provides a clean, efficient solution for industrial and municipal waste.
Climate Mitigation
Reduces greenhouse gas emissions and supports waste-to-energy strategies.
Resource Recovery
Transforms waste into valuable energy and materials, promoting a circular economy.
Flue Gas CO₂ Capture by Adsorbents
Decarbonizing Industrial Emissions Flue gas CO₂ capture involves using solid adsorbents like zeolites, metal-organic frameworks (MOFs), or activated carbon to selectively capture CO₂ from industrial emissions. The captured CO₂ can be stored underground (carbon capture and storage, CCS) or utilized in chemical processes (carbon capture and utilization, CCU).
CO₂ Capture
Effectively removes CO₂ from flue gases, preventing its release into the atmosphere.
Carbon Utilization
Converts captured CO₂ into useful products, such as fuels, chemicals, or building materials.
Storage Solutions
Safely stores CO₂ underground, reducing atmospheric carbon levels.
Climate Action
Mitigates millions of tons of CO₂ emissions annually, supporting global decarbonization goals.
Industrial Decarbonization
Provides a pathway for power plants and heavy industries to achieve carbon neutrality.
Circular Carbon Economy
Turns CO₂ from a waste product into a valuable resource, enabling sustainable industrial practices.
Why Choose ExxCarbon’s Technologies?
Sustainability
Our technologies are designed to minimize environmental impact and promote resource efficiency.
Innovation
We leverage cutting-edge processes to address global challenges like climate change and waste management.
Circular Economy
Our solutions transform waste into valuable resources, supporting a sustainable, circular bioeconomy.
Scalability
From small-scale applications to industrial use, our technologies are adaptable and scalable.
Join Us in Building a Sustainable Future
At ExxCarbon, we’re committed to driving innovation in sustainability. Our technologies are not just solutions—they’re pathways to a greener, healthier planet. Explore how our advanced processes can help you achieve your sustainability goals and contribute to global climate action.