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MEMBRANE BIOREACTORS AS - MBR Vs MBBR - UF

WITH THE HIGH MEMBRANE FOULING ENVIRONMENT CONSTRAINING THE FLUX, THE MBR HAS VERY LOW PEAK FLOW TOLERANCE. HENCE IT REQUIRES LARGE EQUALIZATION TANK VOLUME.

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MEMBRANE BIOREACTORS AS - MBR Vs MBBR - UF

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  1. MEMBRANE BIOREACTORS AS - MBR Vs MBBR - UF EEC GLOBAL OPERATION By: C.S. Umre Technical Director

  2. AS - MBR PROCESS • Conventional membrane bioreactors process immerses membranes directly into highly concentrated mixed liquor suspended solids. • MLSS contains high levels of dispersed , small particles comprised of inert and colloidal material. • High membrane fouling environment, which results in low membrane flux rates, which require large membrane surface area.

  3. TO AVOIDE LOW FOULING CONDITIONS IN AS - MBR HIGH ENERGY CONSUMPTION INTENSIVE PRESCREENING & DISPOSAL HIGH MEMBRANE AREA MBR HIGH MEMBRANE FOULING ENVIRONMENT LARGE EQUALIZATION BASIN SUBSTANTIAL OPERATOR TRAINING

  4. AS - MBR LIMITATIONS • MBR HAS LOW PEAK FLOW TOLERANCE. WITH THE HIGH MEMBRANE FOULING ENVIRONMENT CONSTRAINING THE FLUX, THE MBR HAS VERY LOW PEAK FLOW TOLERANCE. HENCE IT REQUIRES LARGE EQUALIZATION TANK VOLUME.

  5. AS - MBR LIMITATIONS • MBR REQUIRES FINE SCREENING. (1 mm OR LESS) FINE SCREENING REMOVES SUBSTANTIAL AMOUNT OF UNTREATED WASTE THAT MUST BE DISPOSED of. FINE SCREENING ALSO REQUIRES A LARGE AREAAND IS MORE EXPENSIVE THAN STANDARD WASTEWATER SCREENING.

  6. AS - MBR LIMITATIONS • MBR REQUIRES HIGH MLSS RECIRCULATION RATES. • AS PERMEATE IS REMOVED THROUGH THE MEMBRANE, THE ALREADY HIGH CONCENTRATION OF SUSPENDED SOLIDS AT THE MEMBRANE SURFACE OF MBR INCREASES AND FOULING RATES ARE COMPOUNDED. • THIS REQUIRES RECIRCULATING MLSS WITH IN THE BIOREACTOR AND THUS RESULTS IN LARGE AMOUNT OF ENERGY CONSUMPTION,

  7. AS - MBR LIMITATIONS • MBR REQUIRES HIGH MEMBRANE AIR SCOUR RATES. • LARGE AMOUNTS OF ENERGY MUST BE INPUT TO GENERATE AIR TO TO SCOUR THE MEMBRANE SURFACE OF SUSPENDED SOLIDS.

  8. AS - MBR LIMITATIONS • MBR REQUIRES HIGH BIOREACTOR AERATION RATES. • THE HIGH MLSS CONCENTRATION OF MBR REDUCES OXYGEN TRANSFER EFFICIENCY WITHIN THE BIOREACTOR, RESULTING IN A HIGHER ENERGY REQUIREMENT IN ORDER TO AERATE THE BIOREACTOR.

  9. AS - MBR LIMITATIONS • MBR HAS LOW MEMBRANE FLUX RATES. • MEMBRANE COMPONENT COSTS CONTRIBUTE A VERY HIGH CAPITAL AND OPERATING COSTS.

  10. UF FOLLOWED BY MBBR • UF FOLLOWED BY MBBR MAINTAINS SEPARATE BIOLOGICAL AND MEMBRANE UNIT PROCESSES, ALLOWING FOR MAXIMUM TOTAL SYSTEM PERFORMANCE. • EACH PROCESS IS INDIVIDUALLY CONTROLLED AND OPTIMIZED. • MBBR MLSS PARTICLES SETTLE WELL AND EXIBIT LOW MEMBRANE FOULING. • REDUCES THE MLSS TO THE UF MEMBRANE BY 97% • THIS DIRECTLY INCREASES THE MEMBRANE FLUX.

  11. CONTROLLING MEMBRNE FOULING RATES WITH MBBR - UF • CAN TOLERATE MODERATE PEAK FLOW RATES. WILL REQUIRE SMALLER EQUALIZATION TANK. • NO FINE SCREENING REQUIREMENT. • NO SLUDGE RECIRCULTION. ENERGY SAVING. • NO AIR SCOURING REQUIRED. ENERGY SAVING. • SINCE MLSS IS LOW IN MBBR, OXYGEN TRANSFER EFFICIENCY IS HIGH. • FLUX RATES CAN BE MUCH HIGHER, SAVES COST OF MEMBRANES. • SINCE MLSS IS VERY LOW, MEMBRANE FOULING MINIMUM.

  12. ENERGY CONSUMPTION COMPARISION

  13. MBR AND MBBR – MBR COMPARISION

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