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Effluent & Sewage Treatment
Leading Manufacturers, Exporters, Wholesaler of and Effluent Treatment Plants from Mumbai.
| Business Type | Manufacturer, Exporter, Supplier |
| Material | RCC, MS, Or FRP Tanks And Reactors |
| Application | Textile, Pharma, Food, Chemical, Dairy, Automotive Industries |
| Function | Treats Industrial Wastewater To Meet Discharge Norms |
| Stages | Primary, Secondary (Biological), Tertiary Treatment |
| Technology | Chemical, Biological, And Physical Processes |
| Flow Capacity | Customized (1 KLD To 1 MLD+) |
| Automation | Manual, Semi-Auto, Or Fully Automatic (SCADA/PLC) |
| Sludge Handling | Sludge Drying Beds / Filter Press |
| Discharge Standard | CPCB/SPCB Compliant |
| Product Code | 8421 |
| Port | Nava Sheva |
| Payment Terms | T/T, Other |
| Delivery Time | 4 to 5 Weeks |
| Packaging Details | Sea Worthy Wooden Packing |
Effluent Treatment Plant (ETP)
An Effluent Treatment Plant (ETP) is a facility designed to treat wastewater—specifically from industrial sources—before it is discharged into the environment. ETPs use a combination of physical, chemical, and biological processes to remove pollutants, ensuring the treated water meets environmental standards. This treatment is crucial for protecting ecosystems and human health from the harmful effects of industrial pollutants.
Purpose
The primary goal of an ETP is to remove pollutants, contaminants, and hazardous materials from industrial wastewater. This includes heavy metals, organic matter, and harmful chemicals.
Industries That Use ETPs
ETPs are widely used in industries such as:
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Textiles
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Chemicals
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Pharmaceuticals
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Food processing
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Dye manufacturing
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Automotive
Treatment Processes
Effluent treatment involves a multi-stage process, typically consisting of:
1. Physical Processes
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Screening: Removes large solids like plastics, rags, and debris.
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Sedimentation: Allows suspended particles to settle.
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Filtration: Removes fine solids and particulates.
2. Chemical Processes
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Coagulation and Flocculation: Combine small particles into larger clumps for easier removal.
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Neutralization: Adjusts pH levels.
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Disinfection: Kills pathogens using chlorine, ozone, or UV.
3. Biological Processes
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Aerobic treatment: Uses oxygen and bacteria to degrade organic matter.
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Anaerobic treatment: Bacteria break down waste in the absence of oxygen, often producing biogas.
Outcome
The result is cleaned effluent that can either be:
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Safely discharged into water bodies (as per regulatory standards), or
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Reused for processes like cooling, irrigation, or floor washing.
