We engineer biological and mechanical systems that recover value from waste — reliably, measurably, and at a cost that stands on its own economics. Our job is to make circular recycling an industrial-grade supply, not a promise.
Degraded land needs soil biology restored. High-strength effluent needs its load stripped before it reaches the environment. Both are large, mandated problems — and both are under-served by manual, sub-scale supply.
BioLogix Recycle exists to close that gap with automation and honest engineering: build the systems, prove the economics on real sites, and scale through an off-take-led model rather than speculative build-out.
BioLogix does not start with a speculative plant. We start with a measurable stream, engineer the smallest useful recovery module, validate it on-site, and scale only when demand and performance line up.
Characterise the waste stream, disposal burden and useful fraction.
Automate the recovery step around a compact, deployable system.
Measure output quality, operating cost and site-specific performance.
Match modular supply to off-take, reuse demand and proven economics.
Take out separable solids and the obvious wins before engineering the hard remainder — it keeps every stage efficient.
Compact, RFID-tracked, locate-anywhere systems designed to drive down the deployable cost per unit of output.
Efficiency figures, not raw-value plots; screening evidence labelled as screening evidence until pilots prove otherwise.
Co-locate with feedstock and demand to cut logistics and return value to the land and process it came from.
The intended scale-up model is built around long-term off-take and OEM-style partnerships, so production can be matched to demand rather than built speculatively — and the off-taker carries no production or operating risk.
We're structuring investment, OEM off-take and pilot deployments with aligned partners across soil reclamation, agriculture and industrial water.