We are Manufacturer, Supplier, Exporter of Membrane Bioreactor (MBR) type Sewage Treatment Plants from Pune, Maharashtra, India.

A Membrane Bioreactor (MBR) type Sewage Treatment Plant (STP) is an advanced wastewater treatment system that combines conventional biological treatment processes with membrane filtration technology. MBR systems are known for their high efficiency, compact design, and ability to produce high-quality effluent suitable for reuse. Here’s an overview of its applications and benefits:


Municipal Wastewater Treatment:
  • Urban and Suburban Areas: Treating sewage from residential areas and ensuring compliance with stringent discharge standards.
  • New Developments: Suitable for new housing projects where space is limited.
Industrial Wastewater Treatment:
  • Food and Beverage Industry: Treating wastewater with high organic content.
  • Pharmaceuticals and Chemicals: Managing complex effluents with strict discharge requirements.
Commercial and Institutional Facilities:
  • Hotels and Resorts: Ensuring high-quality wastewater treatment in hospitality settings.
  • Hospitals and Medical Centers: Treating wastewater containing pharmaceuticals and pathogens.
Remote and Sensitive Environments:
  • Islands and Coastal Areas: Locations where environmental protection is critical.
  • National Parks and Protected Areas: Ensuring minimal environmental impact.
Water Reuse Applications:
  • Irrigation: Producing water suitable for landscaping and agricultural irrigation.
  • Toilet Flushing and Cooling Towers: Providing reclaimed water for non-potable uses within facilities.


High-Quality Effluent:
  • Superior Filtration: Membranes provide a physical barrier to suspended solids, bacteria, and many viruses, resulting in high-quality treated water.
  • Consistent Quality: Produces consistent effluent quality that often meets or exceeds stringent regulatory standards.
Compact and Space-Efficient:
  • Small Footprint: MBR systems require less space compared to conventional treatment plants due to the integration of biological treatment and membrane filtration in a single unit.
  • Flexible Installation:Suitable for urban areas where space is a premium.
Operational Efficiency:
  • Reduced Sludge Production: More efficient biomass retention and degradation lead to lower sludge production.
  • Automated Control Systems: Advanced monitoring and control systems enhance operational efficiency and reduce manual intervention.
Environmental Sustainability:
  • Water Reuse Potential: High-quality effluent can be reused for various non-potable applications, reducing the demand for freshwater resources.
  • Energy Efficiency: Optimized processes can result in lower energy consumption compared to some traditional methods.
  • Reliability and Robustness:
    • Stable Operation: Effective in handling variations in wastewater composition and flow, providing reliable treatment performance.
    • Resilience to Shocks: Better resilience to toxic shocks and load variations due to high biomass concentrations and efficient separation.


    Pre-Treatment Units:
    • Screening and Grit Removal: Removes large solids and grit to protect the membrane system.
    • Oil and Grease Separation:Traps to remove fats, oils, and grease.
    Biological Treatment:
    • Bioreactor: A tank where microorganisms degrade organic matter in the wastewater.
    Membrane Filtration:
    • Membrane Modules: Submerged or sidestream membranes that filter out suspended solids and microorganisms from the treated water.
    • Membrane Cleaning System: Ensures the membranes remain effective and free from fouling.
    Post-Treatment (Optional):
    • Disinfection: Additional UV or chlorination steps if required for specific applications.
    • Advanced Filtration: Polishing filters to further enhance effluent quality if needed.
    Sludge Handling:
    • Thickening and Dewatering: Equipment to reduce the volume of sludge produced and facilitate its disposal or reuse.
    Control and Monitoring Systems:
    • Automated Controls: Sensors and control systems to monitor and optimize the treatment process.
    • Remote Monitoring: Capability for remote supervision and management.


    MBR-type Sewage Treatment Plants represent a cutting-edge solution for wastewater treatment, offering high-efficiency and high-quality effluent suitable for various reuse applications. Their compact design, operational efficiency, and environmental sustainability make them ideal for a wide range of applications, from urban and industrial settings to remote and environmentally sensitive areas. By integrating advanced biological treatment with membrane filtration, MBR systems provide a robust and reliable solution to modern wastewater management challenges.