Water Treatment Plant

membrane bioreactor (MBR) that has been proven to be effective in removing organic and inorganic matters as a biological unit for wastewater treatment. MBR plants are created by integrating the biological process with membrane filtration which possesses numerous benefits if compared with conventional methods such as activated sludge; MBR is widely used for municipal and industrial wastewater treatment.

• Production Capacity: 500Sq.m
• Delivery Time: 10
• Packaging Details: cotton box

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A 5 kiloliters per day (KLD) Membrane Bioreactor (MBR) is a compact and efficient wastewater treatment system suitable for smaller-scale applications such as decentralized communities, small municipalities, or industrial facilities. Here's a description of its components and operation:

1. Biological Reactor: The heart of the MBR system where wastewater undergoes biological treatment. Microorganisms break down organic pollutants present in the wastewater, converting them into simpler, less harmful substances.

2. Membrane Filtration Unit: The treated wastewater is separated from suspended solids, bacteria, and other contaminants using membrane filtration. These membranes have microscopic pores that allow water molecules to pass through while retaining particles and microorganisms. This ensures high-quality treated water suitable for discharge or reuse.

3. Membrane Modules: These contain the membrane sheets and are submerged in the bioreactor tank. They play a crucial role in separating treated water from biomass and solids, creating a clear effluent.

4. Aeration System: Provides oxygen to the microorganisms in the bioreactor to facilitate the biological treatment process. Aeration promotes the growth of aerobic bacteria, which are essential for breaking down organic matter in the wastewater.

5. Pumping System: Responsible for circulating wastewater through the treatment process. It ensures proper mixing within the bioreactor and maintains the flow rate required for effective treatment.

6. Monitoring and Control System: Sensors and control mechanisms continuously monitor key parameters such as flow rate, dissolved oxygen levels, and membrane fouling. Operators can use this data to optimize the performance of the MBR system and ensure compliance with regulatory standards.

7. Chemical Addition System: Depending on the specific characteristics of the wastewater, chemicals may be added to enhance the treatment process. This could include pH adjustment chemicals, coagulants, or disinfectants to improve the efficiency of the MBR system.

8. Sludge Management System: Facilities for handling and disposing of the sludge produced during the treatment process. Sludge dewatering equipment may be used to reduce the volume of sludge for easier disposal or recycling.

9. Disinfection Unit: A final disinfection step may be employed to ensure that the treated wastewater meets regulatory standards for discharge or reuse. Common disinfection methods include chlorination, ultraviolet (UV) disinfection, or ozonation.

10. Modular Design: Like larger MBR systems, the 5 KLD MBR plant may feature a modular design for easy installation and scalability. This allows for expansion or adjustment of capacity as needed to accommodate changing wastewater treatment requirements.

Overall, a 5 KLD Membrane Bioreactor offers an efficient and reliable solution for treating wastewater in smaller-scale applications, producing high-quality effluent suitable for environmentally friendly discharge or reuse.

• Item Code: 5KLDHMT
• Production Capacity: 50
• Delivery Time: 45 DAYS
• Packaging Details: WRAPPING AND WOODEN BOX

A 25 kiloliters per day (KLD) MBR (Membrane Bioreactor) plant is a wastewater treatment system that utilizes both biological processes and membrane filtration to treat wastewater. Here are some general specifications and components typically found in such a system:

1. Capacity: Capable of treating up to 25,000 liters of wastewater per day.

2. Membrane Bioreactor (MBR) Unit: This is the heart of the system, where wastewater is treated. It consists of:

   • Biological Reactor: Where microorganisms break down organic matter in the wastewater.
   • Membrane Filtration Unit: Membranes with fine pores separate treated water from suspended solids and microorganisms.

3. Membrane Modules: Reinforced PVDF hollow fiber casettes assembled in SS frame .

4. Pumping System: Responsible for circulating wastewater through the treatment process.

5. Aeration System: Provides oxygen to the microorganisms in the bioreactor, facilitating the biological treatment process.

6. Monitoring and Control System: Sensors and control mechanisms to monitor and adjust various parameters such as flow rate, dissolved oxygen levels, and membrane fouling.

7. Chemical Addition System: Depending on the specific requirements of the wastewater being treated, chemicals may be added to aid in the treatment process, such as pH adjustment chemicals or coagulants.

8. Sludge Management System: Facilities for handling and disposing of the sludge produced during the treatment process, which may include sludge dewatering equipment.

9. Disinfection Unit: Typically, a final disinfection step is employed to ensure that the treated wastewater meets regulatory standards for discharge or reuse.

10. Control Room: A centralized location where operators can monitor and control the various processes of the MBR plant.

11. Modular Design: Many MBR plants are designed to be modular, allowing for easier expansion or adjustment of capacity as needed.

These specifications can vary depending on factors such as the specific requirements of the site where the plant will be installed, local regulatory requirements, and the quality of the incoming wastewater

• Item Code: HMT25KLD
• Production Capacity: 50
• Delivery Time: 45days
• Packaging Details: Basic Packing, wooden box and wrapping