Tupelovox provides material, design, construction and performance requirements for any type of onsite residential and commercial project. We provide fully engineered, pre-packaged Decentralised Wastewater Treatment Systems (500 L/d to 600+ m3/d) are ideal for the public sector, private sector, hospitals, communities, and schools.
With tens of thousands of installations all over the world, the Bio-Microbics® systems are state-of-the-art, award-wining technology at affordable prices. These “Fixed Integrated Treatment Technologies” (FITT®) have been used successfully for residential, small community, and commercial wastewater, storm water, and water reuse markets; as well as, marine vessel applications.
A decentralised plant allows communities to remotely treat wastewater to high standards, thereby alleviating the need for expanding centralized sewage systems. Exceeding typical treatment effluent requirements of the local regulations, Bio-Microbics products are an integrating water strategy for the rural/urban environment.
Recognizing the environmental benefits, water savings, new stringent regulations, using treated wastewater as an alternate water source is a better on-site water management system!
Residential (single or community) Wastewater Treatment Systems: Submerged, fixed-film media systems designed to create an optimized treatment environment for exceptional microbial growth with energy-efficient aeration system.
Commercial (small or large) Wastewater Treatment Systems: Submerged, fixed-film media systems designed to create an optimized treatment environment for exceptional microbial growth with energy-efficient aeration system.
Extended Aeration Systems: Designed to be the simplest to install, operate, and maintain large commercial and community wastewater treatment system of its type.
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Membrane BioReactor (MBR) Systems: A sludge treatment system that turns household used wastewater into reusable water with BOD/TSS detections of less than 10 mg/L and untraceable E.coli.
TESTIMONIAL: “We selected the Bio-Microbics® BioBarrier® system based on its competitive cost and projected effluent quality, including our particular need to bring total nitrogen to below drinking water standards in the effluent. In fact, with the addition of alkalinity and ethanol feeders, nitrogen was never an issue, and the system ran trouble-free for the duration of the 2-year experiment with no attention other than chemical tank recharge,” said James Englehardt, University of Miami (UM) College of Engineering professor and chief investigator of the project, titled Design for Autonomous Net-Zero Water Buildings.