Odor Elimination
Masking Odor, Doesn't Eliminate Them
Odor control is a persistent challenge across sectors like wastewater treatment, hospitality and healthcare. Conventional methods often mask odors without resolving the root causes—compounds like hydrogen sulfide (H₂S), ammonia (NH₃), and VOCs. Bio-Organic Catalyst (BOC) uses patented biocatalytic nanotechnology to eliminate odors at the molecular level by accelerating natural biodegradation and enhancing oxygen transfer. Safe, non-toxic and biodegradable, BOC offers a sustainable, long-term solution used globally in municipal systems, industrial sites, and public spaces.
Slime Breed Invisible Air Threats
Odors primarily arise from anaerobic bacterial activity breaking down organic matter, releasing sulfur compounds like H₂S, ammonia, and VOCs. In municipal sewage, industrial effluents,and organic waste, sulfate-reducing bacteria thrive in oxygen-deprived environments, converting sulfates to malodorous sulfides. Similarly, in hospitality or healthcare settings, slime and stagnant organic residues foster bacteria that produce foul-smelling byproducts.
Solutions
Fresh Solutions for Tough Odors
Ecomate, Eco-Cat Clean and Eco-Cat by Bio-Organic Catalyst provides advanced bio-catalytic technology to address odor generation at every stage:
Immediate Neutralization:
- Rapidly oxidizes H₂S, NH₃, and VOCs upon contact, eliminating odors instantly.
- Uses biocatalytic reactions to break down organic compounds into non-odorous byproducts like water and CO₂.
Long-Term Prevention:
- Enhances oxygen transfer to promote aerobic microbial activity, suppressing sulfate-reducing bacteria.
- Degrades slime, organic residues & FOGs removing the nutrient source for odor-causing microbes.
Eco-Friendly Advantages:
- Non-toxic, biodegradable, and safe for aquatic ecosystems.
- Reduces chemical dependency and wastewater pollution, meeting EPA and USDA standards.
Versatile Applications:
- Municipal Wastewater: Treats sewage, pump stations, and sludge with minimal infrastructure changes.
- Hospitality: Eliminates odors in kitchens, drains, and public areas like Four Seasons & Marriot.
- Industrial: Manages VOC emissions in composting, anaerobic digestion, and hydrocarbon remediation.
Frequently Asked Question:
Even after cleaning, odors linger because gases like hydrogen sulfide (H₂S) and ammonia (NH₃) are released during the decomposition of organic waste. At the molecular level, these gases are volatile compounds produced by anaerobic microbial processes. Without interrupting their production pathways or oxidizing them effectively, the smells return quickly.
It neutralizes odors at the source by converting smelly gases into harmless substances like water and sulfate ions. This is achieved through rapid redox reactions that break down volatile organic compounds (VOCs) and sulfide-based emissions without relying on fragrances or chemical cover-ups.
Traditional chemicals often just suppress the smell temporarily. This method changes the underlying conditions that cause the odors. By improving oxygen penetration using nano-scale oxygen bubbles, it promotes aerobic microbial activity that displaces odor-producing anaerobes and prevents harmful gas formation.
Yes, it’s entirely safe. It’s biodegradable, non-toxic, and meets international environmental safety standards. From a regulatory standpoint, the formulation is EPA and USDA compliant and doesn’t introduce harmful residues into wastewater systems or ecosystems.
Absolutely. It’s designed to work in hospitality, wastewater treatment, industrial waste zones and food service areas.
Its versatility lies in its catalytic mechanism—enhancing oxidative reactions regardless of organic load or system configuration.
Yes, with continued use, facilities report significantly reduced need for harsh cleaners and deodorizers.
This is primarily due to the product improving microbial efficiency and organic waste breakdown. It also minimizes the buildup of residues that require repeated chemical intervention.
Most users notice a reduction in odor within minutes of application. Technically, this is due to the rapid oxidation of malodorous compounds like H₂S and NH₃ through catalytic molecular disassembly.
Not only is it safe—it actually helps facilities meet discharge regulations more easily. It reduces total VOCs and sulfide levels in effluents, contributing to lower BOD/COD ratios and better compliance metrics.
It shifts the microbial environment from anaerobic (smell-producing) to aerobic (cleaner, less odorous).
This is supported by enhanced oxygen transfer rates, which suppress sulfur-reducing bacteria and stabilize organic decomposition.
Yes. It integrates smoothly into manual or automated dosing systems without requiring equipment changes.
Its low-viscosity, makes it ideal for spray, drip, or misting systems in both high-load and sensitive environments.
Trusted Clients:
