Minimum Order Quantity | 1 piece |
Capacity (KLD) | 100 KLD |
Application Industry | Food Industry |
Inlet Flow Rate(m3/day) | 100 m3/day |
Air Blower Count | 2 Blowers |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Material Of Construction | Mild Steel |
Water Source | Commercial Waste Water |
Control Module | Available |
Installation Type | Prefabricated |
Automation Grade | Semi-Automatic |
Treatment Stages | Secondary Treatment |
Country of Origin | Made in India |
Power | 2.25 kW |
Sewage Waste Water Treatment System is the process of removing contaminants from wastewater and household sewage, the task of designing and constructing facilities for treating wastewater falls to environmental engineers.
Wastewater treatment System serve as a critical component of modern society, protecting the public from pollutants which may be present in sewage and effluent from industrial operations. The most widely used method of wastewater treatment is biological treatment using bacteria to break down organic wastes. Properly treated wastewater is returned to the environment for reuse.
A wastewater treatment system generally consists of primary, secondary, and sometimes even tertiary treatment. For example, in most municipal sewage treatment plants the primary treatment consists of sedimentation tanks; the secondary treatment means microbiological decomposition or bio-decomposition. Further stages may include micro filtration, ultra filtration or nano filtration for removal of micro-organic particles or ion exchange for hardness or heavy metal ions or activated carbon for organic molecules.
In the wastewater treatment system, water is treated in several stages. The first stage takes place at the settling tank, where water circulates to allow particles to settle out of it. The second stage takes place at an aeration tank, where oxygen levels are moderated and living organisms dine on the sewage. The final stage takes place in a clarifier, where remaining solid waste sinks to bottom and can be taken away. How effective is this process? It has been used for over 2,000 years, so we guess pretty effective!
Minimum Order Quantity | 1 Piece |
Capacity (KLD) | 100 KLD |
Application Industry | Pharmaceutical & Chemicals |
Inlet Flow Rate(m3/day) | 100 m3/day |
Air Blower Power | 0.25 KW |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Water Source | Commercial Waste Water |
Control Module | Available |
Automation Grade | Semi-Automatic |
Deliver Type | PAN India |
Treatment Stages | Secondary Treatment, Primary Treatment |
Warranty | 1 Year |
I Deal In | New Only |
Air Blower Count | 1 |
Installation Type | Prefabricated |
Country of Origin | Made in India |
Motive Force | Electric Power |
Salt Rejection Rate | 99.0% |
A commercial wastewater treatment plant cleans sewage and water so that they can be returned to the environment. These plants remove solids and pollutants, break down organic matter and restore the oxygen content of treated water. They achieve these results through four sets of operations: preliminary, primary, secondary and sludge treatments. Normally, a network of sewers connected to homes, commercial buildings, schools and street grates delivers waste water and solids to a treatment plant's collection tanks and basins in a never-ending flow.
At the commercial wastewater treatment plant, water goes through three stages of treatment. First, it goes to the settling tank where particles settle out. Then the water goes to an aeration tank where oxygen levels are moderated. Next, it goes to a clarifier where any remaining waste sinks to the bottom and can be taken away.
Our commercial wastewater treatment plants purify water for your business. During the first stage of water treatment, large particles settle out of the water to make it easier for living organisms to eat sewage in an aeration tank during the second stage. During the final stage, solid waste sinks to the bottom of a clarifier. This enables you to reuse the purified water.
This Commercial wastewater treatment plant is designed to treat industrial water, or sewage, safely and effectively. The plant works in three stages: settling, aeration, and separation. This modern treatment facility is safe for employees and the environment.
Minimum Order Quantity | 1 Piece |
Capacity (KLD) | 500 KLD |
Air Blower Count | 2 Blowers |
Inlet Flow Rate(m3/day) | 500 m3/day |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Water Source | Industrial Effluent |
Control Module | Available |
Automation Grade | Semi-Automatic |
Treatment Stages | Primary Treatment |
Industry | Chemical/Petroleum Industry |
Country of Origin | Made in India |
The working principle of the Effluent Treatment plant(ETP) is undertaken to be one of the most effective principles used in an Effluent Treatment plant(ETP) where a large amount of human-friendly chemicals is used that is applied to the water to make it free from all the factors that might be harmful to human and aquatic life. This is an important part of ETP that can be highlighted that helps to highlight that the working principles vary in several ways, furthermore, with the service of etp plant.
Effluent Treatment plant(ETP) is a wastewater treatment process (WWTP) that is used to treat wastewater. It's mostly used in industries like pharmaceuticals, textiles and chemicals where extreme water contamination is a possibility.
Industrial Wastewater Treatment Plant offered can be made available in different treatment capacities as required by the client. The effluent treatment plant falls under this category as their common name etp plant, etp, effluent sewage treatment plants, common effluent treatment plant, Effluent Treatment Plant of Dairy, Effluent wastewater treatment plant, effluent treatment plant. SBR wastewater treatment plant, biological wastewater treatment plant, Municipal Wastewater Treatment Plant, Chemical wastewater treatment plant, wastewater treatment plants, Wastewater, wastewater treatment plant, industrial effluent treatment plant
Features:
Minimum Order Quantity | 1 piece |
Application Industry | 10 KLD |
Water Source Type | Industrial Wastewater |
Inlet Flow Rate(m3/day or m3/hr) | 10 m3/day |
Air Blower Count | 2 Blowers |
Air Blower Power | 0.4 KW |
Treatment Technique | Clarifier |
Material Of Construction | Mild Steel |
Control Module | Available |
Automation Grade | Semi-Automatic |
Deliver Type | PAN India |
Treatment Stages | Primary Treatment, Secondary Treatment |
Warranty | 1 Year |
I Deal In | New Only |
Installation Type | Containerized Plug & Play |
Country of Origin | Made in India |
A waste water treatment plant cleans sewage and water so that they can be returned to the environment. These plants remove solids and pollutants, break down organic matter and restore the oxygen content of treated water. They achieve these results through four sets of operations: preliminary, primary, secondary and sludge treatments. Normally, a network of sewers connected to homes, commercial buildings, schools and street grates delivers waste water and solids to a treatment plant's collection tanks and basins in a never-ending flow.
The Activated Sludge Process (ASP) is a sewage treatment process in which air or oxygen is blown into raw, unsettled sewage to smash the solids and develop a biological 'soup' which digests the organic content and pollutants in the sewage. These plants do not have a primary settlement chamber which is the chamber that needs emptying by tanker on a regular basis with most three stage sewage treatment plants.
Wastewater treatment is a process used to remove contaminants from wastewater and convert it into an effluent that can be returned to the water cycle. The treatment process takes place in a wastewater treatment plant. There are several kinds of wastewater which are treated at the appropriate type of wastewater treatment plant. For domestic wastewater (also called municipal wastewater or sewage), the treatment plant is called a sewage treatment plant. For industrial wastewater, treatment either takes place in a separate industrial wastewater treatment plant, or in a sewage treatment plant (usually after some form of pre-treatment).
Wastewater treatment plants serve as a critical component of modern society, protecting the public from pollutants which may be present in sewage and effluent from industrial operations. The most widely used method of wastewater treatment is biological treatment using bacteria to break down organic wastes. Properly treated wastewater is returned to the environment for reuse.
A wastewater treatment plant generally consists of primary, secondary, and sometimes even tertiary treatment. For example, in most municipal sewage treatment plants the primary treatment consists of sedimentation tanks; the secondary treatment means microbiological decomposition or bio-decomposition. Further stages may include micro filtration, ultra filtration or nano filtration for removal of micro-organic particles or ion exchange for hardness or heavy metal ions or activated carbon for organic molecules.
In the wastewater treatment plant, water is treated in several stages. The first stage takes place at the settling tank, where water circulates to allow particles to settle out of it. The second stage takes place at an aeration tank, where oxygen levels are moderated and living organisms dine on the sewage. The final stage takes place in a clarifier, where remaining solid waste sinks to bottom and can be taken away. How effective is this process? It has been used for over 2,000 years, so we guess pretty effective!
We also deal in Textile Wastewater Treatment Plant , Residential Wastewater Treatment Plant , pharmaceutical wastewater treatment plant , biological wastewater treatment plant , Domestic wastewater treatment plant , Chemical wastewater treatment plant , Municipal Wastewater Treatment Plant , wwtp plant.
Minimum Order Quantity | 1 Piece |
Capacity (KLD) | 50 KLD |
Inlet Flow Rate(m3/day) | 50 m3/day |
Air Blower Power | 0.4 KW |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Automation Grade | Automatic |
Impurities to be removed | Turbidity |
Material Of Construction | Mild Steel |
Air Blower Count | 2 |
Control Module | Control Module Available |
Installation Type | Containerized Plug & Play |
Treatment Stages | Primary Treatment, Secondary Treatment |
Country of Origin | Made in India |
A waste water treatment plant cleans sewage and water so that they can be returned to the environment. These plants remove solids and pollutants, break down organic matter and restore the oxygen content of treated water. They achieve these results through four sets of operations: preliminary, primary, secondary and sludge treatments. Normally, a network of sewers connected to homes, commercial buildings, schools and street grates delivers waste water and solids to a treatment plant's collection tanks and basins in a never-ending flow.
The Activated Sludge Process (ASP) is a sewage treatment process in which air or oxygen is blown into raw, unsettled sewage to smash the solids and develop a biological 'soup' which digests the organic content and pollutants in the sewage. These plants do not have a primary settlement chamber which is the chamber that needs emptying by tanker on a regular basis with most three stage sewage treatment plants.
Pretreatment Phase
Waste water plants remove the 'easy pickings' during the pretreatment phase. A set of bar screens rakes away large items such as tree limbs, garbage, leaves, cans, rags, plastic bottles, diapers and other waste materials. In many plants, equalization basins and grit chambers of various types regulate the rate of water inflow so that stones, sand and glass settle out. The basins hold sewage until it is ready for treatment and handle overflows due to heavy rains. Some plants skim grease and fats off the surface of the water during pretreatment, sometimes using air blowers to whip the oily material into a froth for easier removal. Other plants remove grease during primary treatment.
Primary Treatment
After pretreatment, the waste water collects in primary clarifiers, which are large basins and sedimentation tanks. Gravity allows smaller particles to settle out. Mechanically driven scrapers collect solid matter and direct it to hoppers connected to the sludge treatment equipment. If the plant didn’t remove grease and oil during pretreatment, it does so in this phase using surface skimmers. Some plants use equipment to saponify collected fats by mixing them with lye, thereby producing soaps and glycerol.
Secondary Treatment
In the next phase, plants aerate and agitate the waste water in secondary basins, adding beneficial microorganisms to break down organic matter into sludge. Plants employ a number of alternative strategies to break down sludge. For example, plants can culture a mass of microbes and pass the waste material over the biofilm. Other plants mix the biomass with waste material, creating activated sludge that can be recycled for reuse. The resulting biological floc removes carbon and nitrogen from organic wastes. Oxidation can occur on the surface—in lagoons—or in filter beds containing coked coal and limestone. Some facilities construct wetlands and reed beds that decompose organic materials. Other technologies used include membrane bioreactors and biological aerated filters. The resulting waste water collects and settles in a secondary clarifier tank.
Sludge Treatment
The final phase is to treat the remaining water and biosolids, or sludge. Gravity separates organic waste from heavier grit, which can be deposited in a landfill. The remaining primary sludge passes to a thickener, where it is centrifuged and fed to digesting tanks containing anaerobic bacteria. These tanks produce methane that can be used to power the plant. The final solid product, stabilized sludge, can be partially deodorized and plowed into soil as fertilizer. The remaining waste water is treated to remove phosphorus, nitrogen and other nutrients, disinfected with chlorine, ozone or ultraviolet light and then returned to the water supply.
Minimum Order Quantity | 1 Piece |
Capacity (KLD) | 20 KLD |
Air Blower Count | 2 Blowers |
Air Blower Power | 0.4 KW |
Plant Type | Wastewater Treatment Plant |
Treatment Technique | Mixed Bed Bio Reactor |
Material Of Construction | Mild Steel |
Automation Grade | Semi-Automatic |
Inlet Flow Rate | 20 m3/day |
Country of Origin | Made in India |
Minimum Order Quantity | 1 piece |
Capacity (KLD) | 10 KLD |
Application Industry | Institutions |
Inlet Flow Rate(m3/day or m3/hr) | 10 m3/day |
Air Blower Count | 1 Blower |
Treatment Technology | Mixed Bed Bio Reactor(MBBR) |
Material Of Construction | Mild Steel |
Water Source | Industrial Effluent |
Control Module | Available |
Automation Grade | Automatic |
Deliver Type | PAN India |
Treatment Stages | Secondary Treatment, Primary Treatment |
Warranty | 1 Year |
I Deal In | New Only |
Water Pump Power | 1 kW |
Installation Type | Containerized Plug & Play |
Country of Origin | Made in India |
Installation Type | Containerized Plug & Play |
Capacity (KLD/MLD) | 100 KLD |
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 | Membrane Bioreactor(MBR) |
Material Of Construction | Stainless Steel |
Water Source | Industrial Effluent |
Deliver Type | PAN India |
Country of Origin | Made in India |
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