Zero-Waste
Campus Solutions
Transform your campus with gasification technology that eliminates waste, generates clean energy, and creates research opportunities
Transform Your Campus Sustainability
Gasification technology delivers comprehensive benefits that align with your institution's environmental goals while creating financial and academic value
Zero-Waste Achievement
Process waste on-site to nearly eliminate campus garbage and drastically reduce landfill use, avoiding hauling costs and methane emissions.
Clean Energy Generation
Convert waste into synthesis gas (syngas) for reliable, renewable power generation that reduces exposure to energy price volatility.
Carbon Capture & Agriculture
Purified CO₂ from gasification enriches greenhouse environments, increasing crop yields and supporting sustainable food production.
Academic Research Hub
Provide hands-on learning across engineering, environmental science, and agriculture while attracting DOE, USDA, and NSF funding.
Long-Term Cost Savings
Avoid rising landfill fees, reduce waste hauling contracts, and generate on-site power to offset utility costs over time.
Campus Resilience
On-site energy generation ensures continuity for critical operations and reduces dependency on external energy sources.
Clean, Efficient Technology
Unlike traditional incineration, gasification produces minimal emissions and no ash, making it a cleaner and more efficient waste-to-energy solution. Our systems have been proven to handle over ten tons of waste per day while producing reliable power.
Community Impact Through Fresh Produce
Greenhouse systems powered by waste-to-energy technology enable universities to grow high-quality, fresh produce year-round. This produce can be donated to local food banks and community organizations in the university's name, strengthening community ties while addressing food insecurity and demonstrating institutional commitment to social responsibility.
Experiential Learning & Research Opportunities
Campus gasification systems provide invaluable hands-on learning across multiple disciplines. Engineering students study clean on-site power generation, system efficiency, environmental science students monitor emissions and environmental impact, and agriculture students research CO₂ enrichment effects on crop yields.
These systems attract significant funding from agencies like the Department of Energy, USDA, and National Science Foundation, which prioritize renewable energy and waste reduction initiatives.
Measurable Impact on Campus Operations
Gasification delivers quantifiable results across waste management, energy generation, and financial performance
Process waste on-site to nearly eliminate campus garbage
Proven capacity to handle significant waste volumes
Offset energy costs with on-site renewable power
Avoid rising landfill fees and reduce hauling contracts
*Results will vary based on project scope and parameters
A Closed-Loop Sustainability Cycle
Gasification creates a closed-loop cycle that converts discarded materials into energy and produces inert by-products that can be safely managed. This approach eliminates methane emissions from decomposing waste while improving campus resilience through on-site energy generation that ensures continuity for critical operations.