An overviewMEMBRANE BIOREACTER
By
Dhananjay Desaistudent M.Sc. II
Department of MicrobiologyN. A. C. & Sc. College, Ahmednagar
Content Introduction Membrane Bioreactor Technology What is Membrane How it Works? Process configuration Layout Working Theory Reuse potential Advantages Disadvantages Current Status Conclusion
Introduction
Urban wastewater is usually treated by CASP’s.
Treatment efficacy limited by difficulties in separating SS’s.
MBR is improvement of CASP.
MBR Technology
Based on Biological treatment. Combination of two process. a) Microfiltration b) Ultra filtration
Provide Filtered quality of final effluent.
Allow very high MLSS concentration.
Membrane ?
• It is an intervening phase separating two phases and /or active as an active or passive barrier to transport of matter between phases.
How it Works?
Microscopic pores.Barrier to impurities.Gentle suction.
Process configuration
• Two main process configuration of biomass rejection MBRs are-
Submerge or immersed MBR (iMBR).
External / Sidestream MBR (eMBR).
Compact layout of system
Working Theory
Reuse potential of MBR
Completely acceptable water.
After softening treatment use for industrial purpose.
Thus, large quantity of water can saved.
Advantages High quality effluent.
High loading Rate Capacity.
Reducing tertiary filtration and secondary clarifiers.
Reducing plant budget.
disadvantages
Increase Capital Cost. (membrane cost)
Membrane fouling.
Current Status
About 250 currently working in various part of globe.
Japan use most MBR system are use for water recycling in building.
In India MBR use in hotel industries, residential township, and housing complexes, gardening, flushing and other cleaning purpose.
Conclusion
this emerging technology has developed a niche in the wastewater treatment sector.
the next step in its development would be to develop a membrane bioreactor process that is both robust and efficient for various wastewater applications.
Reference