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Effluent Treatment Plants
Our comprehensive range of effluent treatment plants is available with latest technology. Our plants offer excellent solution to sewage water treatment. Our effluent treatment plants cater to various industrial as well as domestic applications. Some of our effluent treatment plants comprises of the following:
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Sewage Treatment Plants |
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 | Our sewage treatment plants are based on the activated sludge process. The sewage initially enters the primary settlement tank which incorporates lamella parallel plates which aid in reducing the suspended solids by at 70 per cent and the BOD by at 25 per cent. The effluent then enters the aeration chamber wherein removal of BOD, the coagulation of non-settable colloidal solids & stabilization of organic matter are accomplished by using bacteria. Bacteria are used to convert the colloidal & dissolved carbonaceous organic matter into various gases & into cell tissue. Cell tissue has specific gravity slightly higher than the water; which is removed from water by gravity settling. Activated Bacterial Growth is achieved with the help of Cow Dung or Domestic effluent.
The reaction which occurs during the process is as follows:
COHNS+O2+Nutrients Bacteria CO2+NH3+C5H7NO2+other end products
(Organic Matter)→C5H7NO2+5O2 Bacteria 5CO2+2H2O+NH3+Energy
The treated effluent then moves to the settlement area which contains a lamella parallel plate assembly for settling finer particles.
Features
• Compact packaged sewage treatment plant
• Simple to operate
• High quality effluent
• Minimal maintenance
Applications
• Housing complexes, Townships
• Industrial Estates
• Colleges, Institutions & Hostels |
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Sequencing Batch Reactor |
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Sequencing batch reactor or SBR is a new technology for the treatment of domestic and industrial waste water. It is ideal for treatment of wide range of domestic and industrial waste water at flow ranging from few thousand liters to millions of liters per day. The SBR process treat wastewater by activated sludge process including anoxic/oxic systems, aerated lagoons, extended aeration processes, trickling filters, rotating biological contactors (RBCS) and oxidation ditches. SBR operates by developing mixed culture of bacteria (biomass) which is effective for removal of BOD, COD and nutrients commonly found in wastewater. Further, it does not allow wastewater to enter the reactor during react, settle decant phases. SBR functions as equalization tank, aeration tank and clarifier within single reactor. For large quantities of wastewater flow (more than 500 cubic meters /day) two or more reactors are utilize in predetermined sequence of operation.
Some of the salient features of SBR are as follows:
• Tolerates variable hydraulic loads
• Tolerates variable organic loads
• Controls filamentous growth
• Provides ideal condition for settling
Advantages
• Offer consistent effluent quality to desired limits
• Designed to minimize operation & maintenance cost
• Eliminates return activated sludge piping
• Low installation cost
• Low power consumption
Applications
Our SBR is used in domestic applications (municipal, resorts & institutions) as well as in industrial applications [Chemical/ Petrochemical, Leachate, Food, Tobacco, Paper & Pulp, Dairy, Textile, OCPSF (organic chemicals, plastics, Synthetics and Fibers) and Sugar. |
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Anaerobic Filter |
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| Our anaerobic process offers excellent treatment of effluent and is most energy efficient process, required less maintenance and nearly operator-free operation. Our filters are widely used for domestic as well as industrial applications. Effluents are collected in equalization basin where these are equalized homogeneously. In case of larger plants equalization basin is equipped with separate mixing pumps, while in smaller plants (effluent generation less than 100 cubic meters per day) same feed-pump can be use for mixing. In the anaerobic degradation process, BOD/COD are converted in to CH4 and CO2 i.e. methane and carbon dioxide. Degradation of BOD/COD is carried out by specially inoculated and acclimatized anaerobic bacteria. This can be presented in the following reaction:
C5H7NO2 → CH4 + CO2
Nitrogen and phosphorous are consume by bacteria for their metabolic activities.
Cyclic anaerobic degradation is flow-through contact process where wastewater passes over or through biofilm formed by anaerobic bacteria. Organic matter (contributing BOD/COD) in wastewater diffuse in to surface of fixed biofilm layers or granules where they are converted in to primary organic acids subsequently in to gases.
Features
• Tolerate variable hydraulic loads
• Tolerate variable organic loads
• Highly stable system
• Low maintenance & operation cost
• Eliminates return activated sludge piping
• Low installation cost
• Low power consumption
Applications
Our range is used in domestic applications [Municipal, Resorts & Institutions] and in industrial applications [Chemical/ Petrochemical, Leachate, Food, Tobacco, Paper & Pulp, Dairy, Textile, OCPSF (organic chemicals, plastics, Synthetics and Fibers) and Sugar]. |
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