Circular supply chain developer GODOT transforms local waste into local value using hydrothermal carbonization (HTC) to process waste. With low input sensitivity, HTC converts waste and emissions to bioenergy and other commercializable outputs.
The primary product hydrochar has economic and environmental value. Other effective uses include activated charcoal, soil amendment, and water/soil pollution remediation. Dried, hydrochar is a solid fuel and a source for hydrogen (H2) gasification.
PROBLEM
The sheer scale of industrial waste outpaces the capacity to process it. Waste and emissions entail significant costs including treatment, stabilization, tipping and hauling fees, labor and time.
Waste negatively impacts ecological and human health, and accelerates climate change.
This crisis underscores an urgent need for innovative, scalable solutions that can transform waste from a liability into a resource, mitigating its environmental, social, and economic impact.
SOLUTION
By shifting the economic logic of industrial and commercial waste from a disposal problem to a feedstock opportunity, GODOT solves intrinsic and persistent waste problems.
GODOT locates, builds out and operates modular waste-to-energy systems to close the loop for large organizations, allowing businesses to better manage resource flow; realize netcost savings and environmental benefits; and add revenue streams.
Our Values
GODOT seeks to build networks of HTC processors to leverage local feedstock availability and satisfy local offtake needs, reducing supply chain risk and lowering costs. With privileged relationships in distribution, GODOT taps existing infrastructure and relationships to aggregate local feedstocks and offtakers.
Our networked operations model unlocks efficient operations with smart resource sharing, AI-enabled administration, capacity balancing, and fully digitized life-cycle track and trace programs. Our strategic position enables GODOT to effectively facilitate the infrastructure build out, use, and distribution of green energy at scale.