Waste streams in
Organic solids and high-strength wastewater arrive as disposal and treatment costs.
BioLogix Recycle builds automated systems that turn organic waste and high-strength effluent into restored soil and cleaner water — closing the loop between agriculture, industry and the land.
BioLogix Recycle is seeking pilot partners, reclamation & off-take partners, and strategic investors to validate and scale two modular recovery platforms.
Organic residues and process effluents are dense with recoverable value. BioLogix Recycle engineers the biological and mechanical systems that capture it — reliably, measurably, and at a cost that stands on its own economics.
Two platforms anchor the company today: automated worm-casting production for soil reclamation, and staged clarification-plus-oxidation for high-strength industrial water. Both share one operating principle — recover the easy value first, then engineer the rest.
Read our approach →One visual operating idea connects both platforms: accept a stream a site already pays to manage, recover the accessible value, and return a measured output to use.
Organic solids and high-strength wastewater arrive as disposal and treatment costs.
Automation, clarification and staged biological or oxidative treatment recover the useful fraction first.
Recovered outputs move into local reuse or contracted off-take instead of disposal.
Each platform is built to run at production scale with a measurable unit economic — and to slot into a partner's operation as a module, a pilot, or a turnkey system.

Industrial-scale, RFID-tracked production of premium worm casting — engineered for post-mining soil reclamation and circular agriculture. Move the trays, not the machines: eight stacked levels, stationary auxiliary systems, locate-anywhere footprint.
Polymer-assisted clarification followed by staged ozone oxidation for high-strength, starch-rich agro-industrial wastewater. A modular front-end that strips solids and organic load before biological polishing or final discharge.
Water figures are screening-level removal efficiency (%) from supplied lab reports; casting throughput is per-unit design capacity. See each platform page for context.
Canada holds vast tracts of mined and disturbed land where topsoil biology has collapsed. Reclamation-grade casting rebuilds structure and biology where restoration is mandated but under-served.
Co-locate production with animal and crop operations to source feedstock and return amendment — closing the agricultural loop with a proven soil input.
Cassava starch, food-processing and other high-strength wastewater where solids and particle-bound organics drive the treatment burden and cost.
We're structuring OEM off-take, pilot deployments and investment terms with partners aligned to soil reclamation, circular agriculture and industrial water — a substantial opportunity to help build automated recovery supply that is still largely absent in Canada.