Accelerate Industrial Effluent Treatment with Powerful Microbial Culture
Tackle high COD/BOD loads with our ETP bio culture – proven for pulp & paper, textile, pharma, chemical, and other industrial wastewater streams.
What is Bio Culture for ETP?
Bio culture for ETP is a unique composition of beneficial microorganisms and enzymes that is used to treat industrial wastewater in Effluent Treatment Plants (ETPs). Microbial cultures work to degrade complex organic pollutants in the wastewater, ultimately lowering both the chemical oxygen demand (COD) and biochemical oxygen demand (BOD), and enabling the water to be safely discharged or reused.
Unlike STP bio culture, which is intended for municipal or domestic sewage, Bio culture for ETP is specifically engineered for the unique problem of treating industrial effluents. Industrial effluents typically contain higher concentrations of chemicals, oil, grease and other toxic substances that require a stronger and more resilient microbial culture.
The microbial culture for industrial effluent in an ETP is formulated to thrive under extreme conditions, handling high pollutant loads (both biochemical and chemical) as well as varying pH levels, temperatures, and other environmental stresses. Optimizing microbial activity in the system will increase and maximize the degradation of organic contaminants, delivering an efficient and cost-effective treatment.
In essence, bio culture for ETP plays a crucial role in improving effluent quality, reducing environmental impact, and helping industries meet regulatory standards for wastewater discharge.
Industries That Use ETP Bio Culture
Effluent Treatment Plants (ETPs) play a critical role in managing industrial wastewater. Each industry faces unique challenges when it comes to effluent treatment, but ETP wastewater bio culture offers a powerful solution that addresses the specific needs of various sectors. Here’s how biological treatment for ETP helps industries handle their wastewater challenges:
1. Pharmaceutical Industry
Pharmaceutical effluents contain active ingredients and solvents that are difficult to treat. Bio culture for ETP breaks down these pollutants, reducing COD and BOD levels and ensuring discharge compliance.
2. Textile & Dye Industry
Textile wastewater, rich in dyes and chemicals, requires specialized treatment. ETP wastewater bio culture accelerates the breakdown of these organic contaminants, reducing chemical use and improving treatment efficiency.
3. Dairy & Food Processing Industry
Effluent from dairy and food processing contains fats, oils, and organic solids. Bio culture for ETP breaks down these materials, improving treatment and ensuring compliance with environmental standards.
4. Chemical & Petrochemical Industry
The complex effluent from chemical plants contains oils, heavy metals, and hazardous chemicals. ETP wastewater bio culture breaks down these toxins, ensuring effective treatment and reducing environmental risks.
5. Pulp & Paper Industry
Pulp and paper effluent is rich in organic matter like lignin. Bio culture for ETP accelerates the decomposition process, improving treatment efficiency and reducing sludge buildup.
6. Food & Beverage Industry
Food and beverage processing wastewater is high in organic content, including sugars and proteins. ETP wastewater bio culture efficiently breaks down these materials, reducing COD and BOD levels for safe discharge.
7. Leather Industry
Leather processing wastewater contains tannins, oils, and heavy metals. Bio culture for ETP targets these complex compounds, reducing chemical use and ensuring compliance with environmental regulations.
8. Metal Finishing & Electroplating Industry
Effluent from metal finishing processes often contains oils and heavy metals. ETP wastewater bio culture breaks down organic contaminants and reduces heavy metal concentrations, ensuring effective treatment.
9. Automotive Industry
Automotive manufacturing wastewater, rich in oils and lubricants, requires specialized treatment. Bio culture for ETP helps break down oils and chemicals, ensuring safe, compliant effluent.
10. Textile Dyeing and Printing
Dyeing and printing processes generate wastewater rich in synthetic dyes and chemicals. ETP wastewater bio culture degrades these substances, making the effluent safe for discharge or reuse.
How Our Microbial Culture Works in ETPs
Our bio culture for ETP utilizes a carefully formulated mix of microbial strains that are designed to optimize the treatment of industrial effluent. Here's how it works:
Bacterial Strains Used
Our microbial culture for industrial effluent contains a high-performance blend of aerobic bacterial strains. These microbes are carefully selected for their ability to break down a wide range of industrial pollutants such as oils, fats, organic sludge, and chemical residues. By targeting complex compounds in oxygen-rich environments, they help speed up biodegradation and improve overall treatment efficiency.
Biodegradation Process
The biodegradation process begins when the bacteria in the ETP bio culture come into contact with organic pollutants in the wastewater. These microorganisms consume the pollutants, converting them into simpler, non-toxic by-products like carbon dioxide and water. The result is cleaner water that meets discharge standards. This natural process not only enhances the degradation of waste but also minimizes the need for additional chemicals, reducing operational costs.
Compatibility with Chemicals
Our bio culture for ETP is designed to be compatible with most conventional ETP chemicals, including coagulants, flocculants, and pH adjusters. This makes it easy to integrate into existing treatment systems without the need for major adjustments. However, for optimal performance, it is recommended to consult with a specialist to ensure that the combination of chemicals works well with the microbial culture.
Aerobic Capabilities
Our microbial culture for industrial effluent is specifically designed to thrive in oxygen-rich environments. The aerobic bacteria rapidly break down organic pollutants, helping to significantly reduce COD and BOD levels. This makes it highly effective for continuous treatment in aeration tanks, ensuring cleaner discharge and improved system efficiency.
Dosage, pH, and Temperature Requirements
- Dosage: The recommended dosage varies depending on the wastewater characteristics and the system's size. Typically, the dosage is between 10-25 ppm of the effluent.
- pH Range: Our bio culture for ETP performs optimally within a pH range of 6.5 to 8.5, ensuring efficient microbial activity and waste breakdown.
- Temperature: The optimal temperature range for our microbial culture is between 25°C and 40°C. Outside of this range, microbial activity may slow down, affecting treatment efficiency.
Product Specifications & Benefits
AMODA Microclean 01 is designed to enhance the biological treatment of industrial effluent, providing efficient and eco-friendly solutions for various wastewater challenges. Here's a breakdown of the key specifications and benefits:
Transform your wastewater naturally with our bio-culture for ETP solutions
| Parameter | Details |
|---|---|
| Bacteria Count | 1.2 Billion CFU/g |
| Bacterial Type | Blend of Bacillus spores |
| Enzyme Profile | Lipase, Protease, Amylase, Cellulase |
| Bacterial Pathway | Aerobic |
| Physical Form | Powder |
| Odour | Mild microbial |
| pH Range | 6.5 – 8.5 |
| Temperature Range | 20°C – 45°C |
| Shelf Life | 24 Months |
| Application Area | Industrial Effluent Treatment Plants |
| Recommended Dosage | 10-20 ppm of ETP (varies as per effluent load and plant design) |
Why Choose AmodaChem?
AmodaChem stands out as a trusted ETP bio culture supplier with a proven track record in industrial effluent management. Our strength lies in delivering reliable, lab-tested microbial solutions backed by responsive service and deep technical understanding.
What sets us apart:
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Consistent Product Performance
Each batch of our bio cultures is tested for CFU count, enzyme activity, and strain stability—ensuring dependable results in varied effluent conditions.
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Quick and Reliable Dispatch Across India
With an efficient logistics setup, we fulfil bulk orders swiftly to minimize plant downtime and maintain treatment continuity.
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Hands-on Technical Support
From dosage planning to site-level troubleshooting, our experts assist throughout implementation. We work closely with in-house teams to fine-tune performance based on real-time plant data.
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Custom Formulations for Industry-Specific Needs
We offer tailored microbial blends for sectors like pulp and paper, pharma, food processing, tanneries, and chemicals—ensuring targeted treatment and compliance.
AmodaChem combines product quality with service reliability, helping industries achieve consistent ETP efficiency and environmental compliance with confidence.
Frequently Asked Questions
Amoda Microclean (01) is formulated to treat a wide range of industrial effluents, including those from food processing, pharmaceuticals, chemicals, textiles, and dyeing units. It effectively breaks down organic load, heavy metals, biodegradable chemicals, and other complex compounds.
The product can be dosed directly into the aeration tank or equalization tank. For best results, dilute the required amount in non-chlorinated water and dose during peak microbial activity periods. Our technical team can help customize the dosing method based on your plant configuration.
Yes. The microbial strains in our bio culture help reduce hydrogen sulfide and other foul-smelling gases by accelerating the breakdown of organic matter, leading to noticeable odour reduction in a short span.
- Initial Seeding: 10-20 ppm per day
- Regular Maintenance: 5-10 ppm per day
The exact dosage will depend on effluent load, the size of the plant, and treatment objectives. Our team can help provide a customized dosage plan.
In most cases, users begin to see a noticeable reduction in COD and BOD levels within 7–10 days of consistent application, depending on the influent characteristics and system efficiency.