Evaluation of a gravity flow membrane bioreactor for treating municipal wastewater
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Water Environment Federation
Abstract
The biomass concentrator reactor (BCR), a gravity flow membrane bioreactor (MBR) design, was evaluated for use in treating a municipal wastewater stream. The BCR operates with less than 2.5 cm of pressure head and uses a 3 to 4 mm thick tortuous path membrane with pore size ranging from 18 to 28 m to achieve solids separation. A two-stage, aerobic/ anoxic reactor was evaluated for the removal of chemical oxygen demand (COD), ammonia, total nitrogen, and solids separation. The reactor was fed 72 L/day, with a hydraulic retention time of 9.3 hours, and had a solids retention time of 20 days. The influent COD was reduced by 93%, whereas, influent ammonia was reduced below 0.1 mg/L and total nitrogen was reduced by 53.7%. A lack of readily biodegradable COD limited denitrification and thus total nitrogen removal. The reactor solids were retained completely in the reactor by the membrane for the duration of testing.
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Keywords
Biomass concentrator reactor, Denitrification, Gravity flow, Membrane bioreactor, Nitrification, Wastewater treatment, Bioreactors, Membranes, artificial, Nitrogen, Oxygen, Waste disposal, fluid, Waste water, Water purification, Ammonia, Bioconversion, Chemical oxygen demand, Concentration (process), Membranes, Nitrogen removal, Pore size, Gravity flows, Hydraulic retention time, Membrane bio reactor (mbr), Municipal wastewaters, Readily biodegradable cod, Solids retention time, Total nitrogen removal, Bioreactor, Design, Membrane, Pollutant removal, Separation, Wastewater, Article, Controlled study, Gravity, Nitrate metabolism, Priority journal, Reactor design, Retention time, Suspended particulate matter, Waste water management, Artificial membrane, Evaluation study, Procedures, Sewage, Water management