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Effluent Treatment Plant
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Effluent Water Treatment Plant
Product Price: Rs 3,50,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 3000 KLD |
| Delivery Location | Pan India |
| Capacity | 3000 L |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Commercial Waste Water |
| Deliver Type | PAN India |
| Automation Grade | Semi-Automatic |
| Industry | Pharmaceutical Industry |
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Effluent Treatment Plants
Product Price: Rs 2,40,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 2000 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Material Of Construction | Mild Steel |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.75 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Control Module | Available |
| Automation Grade | Automatic |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Treatment Plant 500 KLD
Product Price: Rs 1,25,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity (KLD/MLD) | 500 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Material Of Construction | Mild Steel |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Treatment Plant
Product Price: Rs 3,00,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 3000 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Material Of Construction | Mild Steel |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.75 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Water Treatment Plant
Product Price: Rs 2,00,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 2000KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 100 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Water Treatment Plant
Product Price: Rs 2,00,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 2000KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 100 M3/Day |
| Air Blower Count | 2 Blowers |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Treatment Plants
Product Price: Rs 2,00,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity (KLD/MLD) | customized |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 m3/day |
| Material Of Construction | Mild Steel |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.75 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Control Module | Available |
| Automation Grade | Automatic |
| Deliver Type | PAN India |
| I Deal In | New Only |
| Country of Origin | Made in India |
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Effluent Treatment Plant
Product Price: Rs 1,40,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 500 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 m3/day |
| Air Blower Count | 2 Blowers |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Treatment Plant
Product Price: Rs 1,00,000 / PieceGet Best Price
Product Details:
| Capacity | 300 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Deliver Type | PAN India |
| Automation Grade | Manual |
| Water Source | Industrial Effluent |
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Effluent Treatment Plants
Product Price: Rs 5,00,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 5000 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 100 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Treatment Plants
Product Price: Rs 1,50,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 1000 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 100 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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Effluent Water Treatment Plant
Product Price: Rs 2,10,000 / PieceGet Best Price
Product Details:
| Capacity (KLD/MLD) | 2000 KLD |
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Material Of Construction | Mild Steel |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.75 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Automation Grade | Automatic |
| Deliver Type | PAN India |
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Industrial Effluent Treatment Plant
Product Price: Rs 1,85,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity | 50 KL |
| Storage Material | Chemicals/Oils |
| Material | Polypropylene |
| Brand | Adil Industries |
| Delivery | World Wide |
| Usage/Application | To clean water and remove any toxic and non-toxic materials so that water can be reused |
| Industry | Pharmaceutical & Chemicals |
Basic Details:
- Purpose: ETPs are used to treat and manage wastewater from industrial facilities to meet environmental regulations, protect natural water bodies, and ensure safe disposal or reuse of treated water.
- Types: There are various types of ETPs, including physical, chemical, and biological treatment systems, each tailored to the specific characteristics of the industrial wastewater.
- Components: ETPs typically consist of primary treatment units (e.g., screens, sedimentation tanks), secondary treatment units (e.g., biological reactors, aeration tanks), and tertiary treatment units (e.g., filtration, chemical treatment) to effectively remove contaminants.
- Capacity: The capacity of an ETP is specified in terms of the volume of wastewater it can treat per day or per hour. It is designed based on the industrial facility's wastewater generation rate.
- Wastewater Characteristics: The design of an ETP depends on the characteristics of the wastewater, including its chemical composition, pH, temperature, and the presence of specific pollutants.
- Treatment Processes: ETPs can incorporate various treatment processes, including physical processes (e.g., screening, sedimentation), chemical processes (e.g., coagulation, flocculation), and biological processes (e.g., activated sludge, aerobic or anaerobic treatment) to address specific contaminants.
- Effluent Standards: The treated water must meet specific effluent discharge standards set by environmental regulatory agencies. These standards dictate the permissible levels of various contaminants in the treated water.
- Sludge Management: ETPs often produce sludge as a byproduct of wastewater treatment. The management and disposal of sludge must comply with environmental regulations.
- Automation and Monitoring: ETPs may incorporate automation and monitoring systems to ensure efficient operation and compliance with discharge standards. These systems may include sensors, controllers, and data logging.
- Chemical Usage: Depending on the wastewater characteristics, ETPs may require the addition of chemicals for coagulation, flocculation, pH adjustment, or disinfection.
- Energy Efficiency: Energy-efficient design considerations, such as the use of variable frequency drives (VFDs) and energy recovery systems, can reduce operational costs.
- Environmental Impact: ETPs must consider the environmental impact of treated wastewater discharge and minimize any adverse effects on local ecosystems.
- Compliance and Reporting: Compliance with local, state, and national regulations is critical. Facilities often need to maintain records, submit reports, and undergo periodic inspections.
- Safety: Safety measures, such as containment systems for hazardous chemicals, emergency response plans, and worker training, are essential in industrial wastewater treatment facilities.
- Cost: The cost of designing, installing, operating, and maintaining an ETP varies widely depending on the scale and complexity of the facility and the treatment processes involved.
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Etp plant for Chemical Industries
Product Price: Rs 1,80,000 / PieceGet Best Price
Product Details:
| Capacity(KLD) | 30 KLD |
| Installation Type | Prefabricated |
| Country of Origin | Made in India |
| Brand | Adil Industries |
| Delivery | World WideWorld Wide |
| Water Source Type | Industrial Effluent |
| Frequency Range | 50-60Hz |
| Usage/ Application | To clean water and remove any toxic and non-toxic materials so that water can be reused |
Basic Details:
- Purpose: The primary purpose of an ETP in chemical industries is to treat and purify the effluent or wastewater generated in various manufacturing processes. This treated water can often be safely discharged into the environment or reused within the plant.
- Effluent Sources: Chemical industries typically produce a variety of effluents, including process wastewater, cooling water, boiler blowdown, and more. The ETP handles these different types of effluents.
- Treatment Stages: ETPs consist of multiple treatment stages, including physical, chemical, and biological processes, to remove contaminants and pollutants from the wastewater.
- Compliance: Compliance with local and national environmental regulations is a critical aspect of ETP design and operation to ensure that the discharged water meets quality standards.
- Flow Rate: The flow rate of the ETP is determined by the volume of effluent generated by the chemical manufacturing processes. It can vary widely based on the plant's size and production capacity.
- Treatment Processes: ETPs typically employ a combination of processes, such as screening, sedimentation, coagulation, flocculation, biological treatment (activated sludge process or biofilm reactors), chemical dosing, and disinfection (chlorination or UV treatment).
- Chemical Compatibility: The ETP must be designed with materials that are compatible with the corrosive or reactive chemicals present in the effluent.
- Effluent Quality: The treated effluent must meet specific quality parameters, such as limits on pH, suspended solids, chemical oxygen demand (COD), biological oxygen demand (BOD), heavy metals, and other contaminants, as per regulatory requirements.
- Sludge Handling: ETPs generate sludge as a byproduct of the treatment process. The management and disposal of this sludge must be addressed in the ETP design.
- Automation and Monitoring: ETPs often incorporate automation and monitoring systems to ensure efficient operation and compliance with discharge standards. These systems include sensors, control panels, and data logging.
- Safety Measures: Safety features, such as containment structures for accidental spills, ventilation systems, and emergency shutdown procedures, are essential in chemical industry ETPs.
- Environmental Impact: ETPs should aim to minimize the environmental impact by optimizing treatment processes and water reuse/recycling wherever possible.
- Energy Efficiency: Energy-efficient technologies, such as energy recovery systems or renewable energy sources, may be integrated into the ETP to reduce operational costs.
- Maintenance: Regular maintenance and servicing of ETP components, including pumps, blowers, and filters, are crucial for consistent performance.
- Operator Training: Proper training of plant operators is essential for the effective operation and maintenance of the ETP.
- Cost: The cost of designing, constructing, and operating an ETP for chemical industries can vary significantly depending on factors such as the effluent volume, treatment complexity, and regulatory requirements.
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Etp plant for Laboratory
Product Price: Rs 1,90,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity(KLD) | 30 KLD |
| Installation Type | Prefabricated |
| Country of Origin | Made in India |
| Brand | Adil Industries |
| Delivery | World Wide |
| Application Industry | Chemical Laboratory |
| Usage/ Application | To clean water and remove any toxic and non-toxic materials so that water can be reused |
| Treatment technique | Mixed Bed Bio Reactor(MBBR) |
Basic Details:
- Purpose: The primary purpose of an ETP in a laboratory is to treat and manage wastewater generated from various laboratory processes, which may contain chemicals, toxins, or pollutants.
- Treatment Processes: ETPs typically employ a combination of physical, chemical, and biological treatment processes to remove contaminants and pollutants from the laboratory wastewater. These processes may include coagulation, flocculation, sedimentation, chemical dosing, biological treatment (e.g., activated sludge process), and disinfection.
- Environmental Compliance: ETPs are designed to meet local, state, and federal environmental regulations and discharge standards, ensuring that the treated wastewater does not harm the environment.
- Wastewater Characteristics: The design of the ETP depends on the specific characteristics of the laboratory wastewater, including the types of chemicals, pH levels, organic content, and flow rates. A thorough analysis of the wastewater composition is crucial for designing an effective ETP.
- Treatment Capacity: The treatment capacity of the ETP is determined by the volume of wastewater generated by the laboratory. It is specified in terms of the flow rate (e.g., gallons per day) that the plant can handle.
- Chemical Storage and Dosing: ETPs may include chemical storage tanks and dosing systems to introduce chemicals for coagulation, pH adjustment, or other treatment processes.
- Biological Treatment: If the laboratory wastewater contains biodegradable contaminants, a biological treatment process (e.g., activated sludge) may be incorporated into the ETP to break down organic matter.
- Sludge Handling: The ETP may include provisions for the handling and disposal of sludge generated during the treatment process. This may involve dewatering, drying, or other methods for sludge management.
- Instrumentation and Control: ETPs are equipped with instrumentation and control systems to monitor and control various parameters, including pH levels, flow rates, and chemical dosing, to ensure efficient treatment.
- Safety Measures: Safety features, such as containment systems to prevent spills or leaks of hazardous chemicals, should be in place to protect workers and the environment.
- Discharge Standards: The treated wastewater must meet specific discharge standards set by regulatory authorities. Monitoring equipment is often included to ensure compliance.
- Maintenance: Regular maintenance of the ETP is essential to ensure its continued effectiveness. This includes cleaning, inspection, and servicing of equipment and components.
- Space Requirements: The physical footprint of the ETP should be considered, especially in laboratory settings where space may be limited.
- Cost: The cost of designing, installing, and operating an ETP for a laboratory can vary significantly based on the size, complexity, and specific treatment requirements.
- Training: Proper training of laboratory personnel on the use and maintenance of the ETP is essential to ensure its safe and efficient operation.
- Documentation: Comprehensive documentation of the ETP's design, installation, and operation is often required for regulatory compliance and reporting.
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Etp Plant For Electroplating Industry
Product Price: Rs 2,00,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity(KLD) | 30 KLD |
| Country of Origin | Made in India |
| Brand | Adil Industries |
| Delivery | World Wide |
| Usage/Application | To clean water and remove any toxic and non-toxic materials so that water can be reused |
| Treatment technique | Mixed Bed Bio Reactor |
| Air Blower Count | 1 |
Basic Details:
- Purpose: The primary purpose of an ETP in the electroplating industry is to treat and remove pollutants, heavy metals, and other contaminants from the wastewater generated during electroplating processes.2. **Components:** ETPs typically consist of various units and processes, including chemical treatment, physical treatment, and biological treatment, to effectively remove or neutralize contaminants.
- Compliance: ETPs are designed to meet environmental regulations and discharge standards set by local authorities to protect the environment and public health.
- Capacity: The capacity of an ETP is determined based on the volume of wastewater generated by the electroplating facility. It can range from small-scale systems for small electroplating shops to large-scale systems for industrial facilities.
- Pre-Treatment: Electroplating wastewater often requires pre-treatment to remove coarse solids, oils, and grease before it enters the main treatment process. Pre-treatment may include sedimentation, filtration, and oil-water separation.
- Chemical Treatment: Chemical treatment involves the addition of chemicals to the wastewater to neutralize pH, precipitate heavy metals, and remove other contaminants. Common chemicals used include coagulants, flocculants, and pH adjusters.
- Physical Treatment: Physical treatment methods such as settling tanks, clarifiers, and flotation units are used to separate suspended solids from the wastewater.
- Biological Treatment: Biological treatment processes, such as activated sludge systems and biofilters, use microorganisms to break down organic pollutants in the wastewater.
- Demineralization: If the electroplating process involves the use of chemicals or solutions, a demineralization unit may be included to remove salts and ions from the wastewater.
- Filtration: Fine filtration processes, including sand filters or membrane filters, may be employed to further remove fine particles and impurities.
- Disinfection: After treatment, the effluent may undergo disinfection to eliminate harmful microorganisms and ensure its safety before discharge or reuse.
- Sludge Handling: Sludge generated during the treatment process may require further treatment or disposal. This can include dewatering, drying, or proper disposal in compliance with regulations.
- Automation and Monitoring: Modern ETPs often include automation and real-time monitoring systems to optimize the treatment process and ensure compliance with discharge standards.
- Energy Efficiency: Energy-efficient equipment and processes may be incorporated to reduce operational costs and environmental impact.
- Compliance and Reporting: Regular monitoring, testing, and reporting are essential to ensure compliance with environmental regulations. ETPs should maintain records of wastewater quality and treatment performance.
- Safety Measures: Adequate safety measures, including containment systems, spill prevention, and emergency response plans, are crucial for handling hazardous chemicals and ensuring worker safety.
- Maintenance: Regular maintenance and servicing of ETP components are essential to keep the system running efficiently and effectively.
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Effluent Water Treatment Plant Etp
Product Price: Rs 1,95,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity(KLD) | 30 KLD |
| Installation Type | Prefabricated |
| Country of Origin | Made in India |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Application Industry | Chemical Industries |
| Brand | Adil Industries |
| Delivery Location | World wide |
| Usage/ Application | To clean water and remove any toxic and non-toxic materials so that water can be reused |
Basic Details:
- Purpose: The primary purpose of an ETP is to treat wastewater and effluent to meet regulatory standards for discharge or reuse while minimizing its environmental impact.
- Types: ETPs can be categorized into various types, including physical, chemical, and biological treatment plants, depending on the specific contaminants and pollutants present in the effluent.
- Components: An ETP typically consists of multiple treatment processes, including screening, primary treatment, secondary treatment, and sometimes tertiary treatment, to remove solids, organic matter, nutrients, and contaminants.
- Applications: ETPs are used in various industries, including manufacturing, chemical processing, food and beverage, pharmaceuticals, textiles, and municipal wastewater treatment.
- Flow Rate: The flow rate of an ETP is specified in cubic meters per day (CMD) or gallons per day (GPD) and indicates the volume of wastewater the plant can handle daily.
- Effluent Quality: The quality of the treated effluent is crucial and must meet regulatory standards for parameters such as suspended solids, biochemical oxygen demand (BOD), chemical oxygen demand (COD), pH, nutrients, heavy metals, and other contaminants.
- Treatment Processes: ETPs employ a combination of treatment processes, which may include screening, sedimentation, aeration, biological treatment (activated sludge or biological filters), chemical coagulation and flocculation, disinfection (chlorination or ultraviolet (UV) treatment), and advanced processes like membrane filtration or reverse osmosis.
- Chemical Usage: The type and amount of chemicals used in the treatment process depend on the specific requirements of the effluent and the treatment processes employed.
- Energy Consumption: ETPs can be energy-intensive due to the need for mechanical equipment like pumps, blowers, and mixers. Efficient energy management and optimization are essential for reducing operating costs.
- Sludge Handling: ETPs often generate sludge as a byproduct of the treatment process. Sludge handling and disposal methods, such as dewatering and incineration, should be considered.
- Automation and Control: Modern ETPs often feature advanced automation and control systems to optimize treatment processes, monitor water quality in real-time, and facilitate remote operation and data logging.
- Compliance: Ensuring that the ETP complies with local and national environmental regulations and discharge permits is crucial to avoid legal issues and penalties.
- Maintenance: Regular maintenance and servicing of ETP equipment and systems are necessary to ensure efficient and consistent operation.
- Environmental Impact: An ETP's environmental impact, such as energy consumption, chemical usage, and emissions, should be assessed, and efforts should be made to minimize negative effects.
- Cost: The cost of constructing and operating an ETP can vary widely depending on its size, capacity, treatment processes, and location.
- Safety: Ensuring the safety of personnel working at the ETP is essential, as it may involve handling hazardous chemicals and operating heavy machinery.
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10 Kld Etp Plant
Product Price: Rs 6,55,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Capacity | 10 KLD |
| Industry Type | Chemical |
| Treatment Technology | MBBR |
| Plant Type | Package Plant |
| Automation Grade | Semi-Automatic |
| Material of Construction | FRP |
| Treated Water Usage | Gardening |
| Treatment Stages | Secondary, Primary |
| Usage | ETP removes harmful metals and chemicals from wastewater, maintains pH within safe limits, an |
| Application | Pharmaceutical/ Plating/ Food and many more |
| Brand | Adil Industries |
| Delivery Location | World wide |
Basic Details:
- Purpose: The primary purpose of an ETP is to treat wastewater and effluent to meet regulatory standards for discharge or reuse while minimizing its environmental impact.
- Types: ETPs can be categorized into various types, including physical, chemical, and biological treatment plants, depending on the specific contaminants and pollutants present in the effluent.
- Components: An ETP typically consists of multiple treatment processes, including screening, primary treatment, secondary treatment, and sometimes tertiary treatment, to remove solids, organic matter, nutrients, and contaminants.
- Applications: ETPs are used in various industries, including manufacturing, chemical processing, food and beverage, pharmaceuticals, textiles, and municipal wastewater treatment.
- Flow Rate: The flow rate of an ETP is specified in cubic meters per day (CMD) or gallons per day (GPD) and indicates the volume of wastewater the plant can handle daily.
- Effluent Quality: The quality of the treated effluent is crucial and must meet regulatory standards for parameters such as suspended solids, biochemical oxygen demand (BOD), chemical oxygen demand (COD), pH, nutrients, heavy metals, and other contaminants.
- Treatment Processes: ETPs employ a combination of treatment processes, which may include screening, sedimentation, aeration, biological treatment (activated sludge or biological filters), chemical coagulation and flocculation, disinfection (chlorination or ultraviolet (UV) treatment), and advanced processes like membrane filtration or reverse osmosis.
- Chemical Usage: The type and amount of chemicals used in the treatment process depend on the specific requirements of the effluent and the treatment processes employed.
- Energy Consumption: ETPs can be energy-intensive due to the need for mechanical equipment like pumps, blowers, and mixers. Efficient energy management and optimization are essential for reducing operating costs.
- Sludge Handling: ETPs often generate sludge as a byproduct of the treatment process. Sludge handling and disposal methods, such as dewatering and incineration, should be considered.
- Automation and Control: Modern ETPs often feature advanced automation and control systems to optimize treatment processes, monitor water quality in real-time, and facilitate remote operation and data logging.
- Compliance: Ensuring that the ETP complies with local and national environmental regulations and discharge permits is crucial to avoid legal issues and penalties.
- Maintenance: Regular maintenance and servicing of ETP equipment and systems are necessary to ensure efficient and consistent operation.
- Environmental Impact: An ETP's environmental impact, such as energy consumption, chemical usage, and emissions, should be assessed, and efforts should be made to minimize negative effects.
- Cost: The cost of constructing and operating an ETP can vary widely depending on its size, capacity, treatment processes, and location.
- Safety: Ensuring the safety of personnel working at the ETP is essential, as it may involve handling hazardous chemicals and operating heavy machinery.
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Effluent Treatment Plant
Product Price: Rs 1,35,000 / PieceGet Best Price
Minimum Order Quantity: 1 Piece
Product Details:
| Installation Type | Prefabricated |
| Application Industry | Pharmaceutical & Chemicals |
| Inlet Flow Rate(m3/day or m3/hr) | 50 m3/day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Water Source | Industrial Effluent |
| Country of Origin | Made in India |
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Small Effluent Treatment Plant
Product Price: Rs 85,000 / PieceGet Best Price
Product Details:
| Application Industry | Pharmaceutical & Chemicals |
| Installation Type | Prefabricated |
| Inlet Flow Rate(m3/day or m3/hr) | 50 M3/Day |
| Air Blower Count | 1 Blower |
| Air Blower Power | 0.5 KW |
| Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
| Deliver Type | PAN India |
| Country of Origin | Made in India |
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