[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.4491/eer.2007.12.4.157

THE MEMBRANE BIOFILM REACTOR IS A VERSA TILE PLATFORM FOR WATER AND WASTEWATER TREATMENT

Rittmann, Bruce E. (Center for Environmental Biotechnology Biodesign Institute at Arizona State University)

Publication Information

Environmental Engineering Research / v.12, no.4, 2007 , pp. 157-175 More about this Journal

Abstract

The membrane biofilm reactor (MBfR) creates a natural partnership of a membrane and biofilm, because a gas-transfer membrane delivers a gaseous substrate to the biofilm that grows on the membrane's outer wall. $O_2$ -based MBfRs (called membrane aerated biofilm reactors, or MABRs) have existed for much longer than $H_2$ -based MBfRs, but the $O_2$ -based MBfR is a versatile platform for reducing oxidized contaminants in many water-treatment settings: drinking water, ground water, wastewater, and agricultural drainage. Extensive bench-scale experimentation has proven that the $H_2$ -based MBfR can reduce many oxidized contaminant to harmless or easily removed forms: e.g., ${NO_3}^-$ to $N_2$ , ${ClO_4}^-$ to $H_2O$ and $Cl^-$ , ${SeO_4}^{2-}$ to $Se^0$ , and trichloroethene (TCE) to ethene and $Cl^-$ . The MBfR has been tested at the pilot scale for ${NO_3}^-$ and ${ClO_4}^-$ and is now entering field-testing for many of the oxidized contaminants alone or in mixtures. For the MBfR to attain its full promise, several issues must be addressed by bench and field research: understanding interactions with mixtures of oxidized contaminants, treating waters with a high TDS concentration, developing modules that can be used in situ to augment pre-denitrification of wastewater, and keeping the capital costs low.

Keywords

Biofilm; Bio-reduction; Hydrogen; Membrane; Oxidized contamiants;

Citations & Related Records

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