Harry Futselaar scite author profile

Activated sludge models (ASM) have been developed and largely applied in conventional activated sludge (CAS) systems. The applicability of ASM to model membrane bioreactors (MBR) and the differences in modeling approaches have not been studied in detail. A laboratory-scale MBR was modeled using ASM2d. It was found that the ASM2d model structure can still be used for MBR modeling. There are significant differences related to ASM modeling. First, a lower maximum specific growth rate for MBR nitrifiers was estimated. Independent experiments demonstrated that this might be attributed to the inhibition effect of soluble microbial products (SMP) at elevated concentration. Second, a greater biomass affinity to oxygen and ammonium was found, which was probably related to smaller MBR sludge flocs. Finally, the membrane throughput during membrane backwashing/relaxation can be normalized and the membrane can be modeled as a continuous flow-through point separator. This simplicity has only a minor effect on ASM simulation results; however, it significantly improved simulation speed

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Economic evaluation of a new ultrafiltration membrane for pretreatment of seawater reverse osmosis

Knops

Hoof²,

Futselaar³

et al. 2007

Desalination

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NORIT AirLift MBR: side-stream system for municipal waste water treatment

Futselaar¹,

Schonewille²,

Vente³

et al. 2007

Desalination

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Controlling submicron particle deposition in a side-stream membrane bioreactor: A theoretical hydrodynamic modelling approach incorporating energy consumption

Jiang

Kennedy

Yoo

et al. 2007

Journal of Membrane Science

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Harry Futselaar

Direct capillary nanofiltration — a new high-grade purification concept

Comparison of the Modeling Approach between Membrane Bioreactor and Conventional Activated Sludge Processes

Economic evaluation of a new ultrafiltration membrane for pretreatment of seawater reverse osmosis

NORIT AirLift MBR: side-stream system for municipal waste water treatment

Controlling submicron particle deposition in a side-stream membrane bioreactor: A theoretical hydrodynamic modelling approach incorporating energy consumption

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