Membrane bioreactor technology is a long-term solution for the treatment of municipal and industrial wastewater that is both cost-effective and ecologically friendly. With this tool, you are able to maximize resource recovery while keeping expenses low and incorporating a circular economy approach into your organization. Modules for bioreactors combine the benefits of hollow fiber and flat sheet technology in a single package.

Make the Improvement

Improve the membrane bioreactor filtration modules to boost capacity while reducing energy consumption and maintenance costs in the most current version. Based on 15 years of experience in water treatment, our new MBE membrane is a significant advancement in the area of water treatment. It ensures dependable functioning while minimizing the overall cost of ownership.

MBE Invention

The invention of the membrane bioreactor (MBE Systems), a small but very effective wastewater treatment device, has benefited from this. Besides membrane fouling, which has a substantial influence on membrane performance and lifespan, MBEs have a number of other limitations that prevent them from being widely used in wastewater treatment. Consequently, the costs of maintaining and managing the facility rise as a result of these disadvantages. A major focus of membrane bioreactor research over the last two decades has been on identifying long-term solutions to the problem of membrane fouling.

  • Researchers want to present an overview of investigations that have been undertaken to discover fouling mitigation approaches for membrane fouling in membrane bioreactors. It’s possible to find biofoulants, organic and inorganic foulant kinds in the environment. In addition, the factors that influence membrane fouling are addressed in great depth in this report. Recent research efforts on fouling management, such as coagulants and absorbers, the integration of granulation with MBE, the introduction of granular materials with air scouring, and quorum quenching, have led in enhanced fouling control, as discussed in this article.
  • Research is required to determine the appropriate quantities of different coagulants and desorbents that may be used to reduce membrane fouling, although coagulants and adsorbents were shown to reduce membrane fouling significantly. In addition to outstanding nutrient extraction, the combination of aerobic granulation and membrane bioreactors (MBEs), which targets both biofoulants and organic foulants, demonstrates great filtering performance and a large decrease in fouling rate.

Membrane bioreactors” are a typical term for wastewater treatment operations (MBEs)

An MBE, or membrane bioreactor, refers to a wastewater treatment method that uses a permanent-selective membrane, such as microfiltration or ultrafiltration, in conjunction with a biological process, especially a suspended growth bioreactor, in order to increase treatment efficiency.

  • The membrane is utilised as a distinct tertiary treatment phase in MBEs, which differs from standard polishing treatments in that there is no return of active biomass to the biological process.
  • Commercial membrane bioreactor systems now employ the membrane as a filter, rejecting solid contaminants formed by the biological process while simultaneously providing a clean and disinfected product effluent. In case of Vacuum Valves this works fine.


Membrane-based separation (MBE) uses an electrostatic membrane to separate solids and liquids, as opposed to the traditional CAS method, which uses a secondary clarifier or settling tank to separate particles from liquids. Both the process and the product water quality benefit as a result of this development.