Proprietary Technology for
Continuous Pyrolysis
Applied Gaia specializes in pyrolysis machine manufacture, technology sales, engineering and full system project design.
We ensure profitable biochar operations and applications resulting from our technology.
We also assist with registration, positioning, trading (sales) of CO2 Removal Certificates.
The Applied Gaia B3 Technology
Pyrogenic Carbon Capture and Storage (PyCCS) is carbon sequestration technology that can mitigate climate change while improving soil fertility. Our pyrolyzer is designed and built for continuous operation and production with minimal labor to create high quality biochar.
The B3 is agile, durable, efficient and simple to operate as a high volume, scalable and industrial solution to biomass monetization. The B3 will pyrolyse any organic material.
Soil Benefits
Biochar is a charcoal-like, highly adsorbent, carbon substance that’s made by pyrolyzing organic material in a low oxygen environment. Biochar’s naturally porous structure creates:
Improved soil health with increased pH and water/nutrient management;
Improved soil resiliency to drought or heavy rain;
Ability to convert shell and tree residues into revenues.
Applied Gaia Engineering, Carbon & Business Consulting Services
Pyrolysis machine sales, engineering and system design.
Profitable biochar operations and applications.
Registration, positioning, trading (sales) of CO2 Removal Certificates.
Applied Gaia Corporation is a pyrolysis CO2 removal business and technology manufacturer. We are ideally positioned within our industry with our modular, scalable continuous pyrolysis technologies.
We differentiated ourselves over a decade ago – by designing with a preference for the agile, the modular, the distributive. When other designers were working toward fixed, centralized, expensive systems often favoring energy production. We specialize in building industrial scale machines that convert high volumes of biomass into stable carbon.
We chose quality biochar, cost effectiveness, and carbon credit generation.