Denitrification is a critical microbial process in wastewater treatment, converting harmful nitrate (NO₃⁻) into inert nitrogen gas (N₂) to prevent environmental contamination. Traditional systems struggle with slow reaction rates, incomplete nitrogen removal, and greenhouse gas emissions like nitrous oxide (N₂O), particularly in overloaded municipal and industrial plants. Bio-Organic Catalysts (BOCs) provide a patented, sustainable solution by enhancing microbial efficiency and oxygen transfer in wastewater systems. BOCs are liquid biocatalysts derived from plant extracts, yeast fermentation by-products, and non-ionic surfactants. They generate micro-bubbles with porous shells that rapidly increase dissolved oxygen (DO) while breaking down biofilms and fats, oils, and greases (FOGs). This dual action optimizes aerobic nitrification (NH₄⁺ → NO₃⁻) and anaerobic denitrification (NO₃⁻ → N₂), even in challenging wastewater conditions. Proven in over ten countries, BOCs address nitrogen discharge limits, reduce energy costs, and improve plant capacity without infrastructure upgrades.
BOC’s bio-catalytic technology offers a comprehensive solution to these challenges, providing a sustainable and effective alternative to traditional cleaning methods. Here are the key benefits of using BOC’s system:
Challenge | Traditional Methods | BOC Solution |
Odor Control | Masks odors temporarily with perfumes | Neutralizes VOCs at molecular level |
Grease Removal | Requires abrasive scrubbing, damaging surfaces | Nano-bubbles lift FOGs without scrubbing |
Pest Prevention | Leaves residues that attract insects/rodents | Eliminates organic food sources |
Compliance | Harsh chemicals risk regulatory penalties | Non-toxic, biodegradable formula |
Labor Costs | Labor-intensive scrubbing and frequent repeats | 50% less manual effort |