On-site digester turning agri-waste into a soil-enhancing effluent, cutting GHGs, enabling natural pest control, and supporting biogas or WWTP reuse
About
GS-Food Waste Digesters develops advanced, on-site systems that transform food and agricultural waste into safe, reusable liquid through enzymatic hydrolysis. Our technology helps farms and agri-processors reduce greenhouse gas emissions, cut waste at the source, and produce a nutrient-rich effluent that can be upgraded into a natural soil enhancer or combined with special enzymes to reduce reliance on chemical pesticides.
Where reuse on-site isn’t possible, the output is compatible with wastewater treatment facilities or biogas systems — closing the loop in a circular, sustainable way.
Key Benefits
- Reduces GHG Emissions: Cuts methane release by breaking down food and agricultural waste enzymatically at the source. and make waste into a resource on-site.
- Improves Soil Health: Creates a nutrient-rich effluent that can be upgraded into a natural fertiliser with added enzymes.
- Reduces Agricultural Waste: Processes unsellable or excess organic waste on-site, eliminating landfill dependency.
- Supports Circular Farming: Enables reuse of waste as soil enhancer, biogas feedstock, or wastewater-compatible effluent.
- Lowers Chemical Input Use: Effluent can be fortified with bio-based/ enzymatic agents to reduce pesticide and antibiotic reliance.
- Decentralised & Scalable: Easily integrated at farms, food processors, and supply chain nodes with low operational effort.
- Regulatory Friendly: Designed to comply with EU and UK environmental discharge and circular economy regulations.
Applications
Our core market includes food service and retail sectors such as restaurants, supermarkets, hotels, resorts, caterers, and hospitals — all benefiting from on-site food waste digestion and emissions reduction.
With targeted R&D and enzyme mix adaptation, our technology is also applicable to the agricultural sector, enabling farms and agri-processors to treat crop residues, harvest waste, and other organic mono-streams on-site. This opens new circular applications in soil enhancement, natural input production, and energy generation via biogas or wastewater treatment integration.