Integrated Mathematical Model of a MBR Reactor Including Biopolymer Kinetics and Membrane Fouling

Date

2014-09-01

Advisors

Journal Title

Journal ISSN

ISSN

1877-7058

Volume Title

Publisher

IEEE

Type

Conference

Peer reviewed

Yes

Abstract

This paper briefly describes an integrated mathematical model of an immersed membrane bioreactor (MBR) with hollow fibre outside-in membranes. The integrated model is composed of three interconnected submodels: the activated sludge model (ASM) extended with soluble and bound biopolymer kinetics, the membrane fouling model, and the interface model relating cake back- transport rate to air-scour intensity and specific cake resistance to concentration of extracellular polymeric substances (EPS). The integrated model is simulated on the plant layout used in the BSM-MBR benchmark model of Maere et al. (2011) and predicts similar effluent quality to BSM-MBR whilst additionally enabling predictions of the transmembrane pressure (TMP) and of the effects of various operating conditions on membrane fouling.

Description

Keywords

Activated Sludge, Biopolymers, Integrated model, Membrane bioreactor, MBR, EPS, SMP, Simulation, Wastewater treatment

Citation

Janus, T. (2014) Integrated Mathematical Model of a MBR Reactor Including Biopolymer Kinetics and Membrane Fouling. Procedia Engineering, 70, pp. 882-891

Rights

Research Institute