Powder Form Water Treatment Bio Bacteria With High Concentration

This state-of-the-art aerobic bacterial formula is designed to speed up the decomposition of organic waste in wastewater treatment plants, landfills, and composting facilities. It incorporates potent strains such as Bacillus subtilis and Pseudomonas putida, which are highly concentrated and flourish in environments abundant in oxygen. The formula works quickly to break down fats, proteins, and carbohydrates with efficiency.

With applications in both municipal and industrial settings, this formula can reduce sludge volume by as much as 40% while also helping to control unpleasant odors. It is compatible with existing aeration systems and is environmentally safe for aquatic ecosystems.

Features:

High-Performance Microbial Strains
Proprietary blend of Bacillus subtilis (starch/fat degradation), Nitrosomonas (ammonia oxidation), and Pseudomonas putida (hydrocarbon breakdown).
Concentration: 2×10 ⁹ – 5×10 ⁹ CFU/g (colony-forming units per gram).

Broad Operational Flexibility
pH Range: 5.0–9.5 (acidic to alkaline wastewater compatibility).
Temperature Tolerance: 4°C–55°C (works in cold climates and high-heat effluents).
Salinity Resistance: Functions in brackish water up to 3% salinity.

Rapid Activation & Longevity
Achieves visible sludge reduction within 48–72 hours of application.
Shelf-stable for 18 months in dry, cool conditions (no refrigeration required).

Eco-Safe & User-Friendly
Non-pathogenic and non-corrosive to pipes, pumps, or concrete tanks.
Compatible with UV disinfection systems and common flocculants (e.g., PAC, alum).

Cost-Effective Solutions
Dosage Efficiency: 1 kg treats 5–10 tons of wastewater (varies by pollutant load).
Reduces energy consumption in aeration tanks by 15–20% through improved oxygen utilization.

Application:

Reduces COD (Chemical Oxygen Demand) by 70–90% in various industries such as food processing, textile, chemical, and pharmaceutical effluents. It effectively breaks down stubborn pollutants including fats, oils, synthetic dyes like azo dyes, phenols, and surfactants. Furthermore, it plays a crucial role in preventing sludge bulking in activated sludge systems and decreasing scum formation in clarifiers.

With the aim of degrading organic solids in sewage sludge, this management strategy helps in cutting disposal costs by 30–50%. It also effectively controls hydrogen sulfide (H2S) odor in pumping stations and sewer networks. Moreover, it enhances nitrification in aeration tanks to ensure compliance with NH3-N discharge limits of less than 2 ppm.

In the field of aquaculture and pond ecosystems, the focus is on stabilizing ammonia levels below 0.5 ppm and nitrite levels to improve survival rates in shrimp/fish farms. Additionally, it suppresses harmful algal blooms by competing for nutrients like phosphates, and helps in maintaining dissolved oxygen (DO) above 4 mg/L for the health of aquatic life.

This method accelerates the decomposition of organic waste such as food waste, agricultural residues, and manure in aerobic digesters. It effectively reduces landfill leachate toxicity by degrading cellulose and lignin compounds.

In residential and commercial settings, these systems play a vital role in clearing grease blockages in septic tanks, RV systems, and restaurant grease traps. They also help minimize sludge buildup in home sewage treatment plants and communal drainage systems.

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