Experimental Study and Design of a Submerged Membrane Distillation Bioreactor

A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally demonstrated in this article. Since organic particles are rejected by an ‘evaporation’ mechanism, the retention time of non‐volatile soluble and sm...

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Published inChemical engineering & technology Vol. 32; no. 1; pp. 38 - 44
Main Authors Phattaranawik, J., Fane, A. G., Pasquier, A. C. S., Bing, W., Wong, F. S.
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.01.2009
WILEY‐VCH Verlag
Wiley-VCH
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Online AccessGet full text
ISSN0930-7516
1521-4125
DOI10.1002/ceat.200800498

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Abstract A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally demonstrated in this article. Since organic particles are rejected by an ‘evaporation’ mechanism, the retention time of non‐volatile soluble and small organics in the submerged membrane distillation bioreactor (MDBR) is independent of the hydraulic retention time (mainly water and volatiles). A high permeate quality can be obtained in the one‐step compact process. The submerged MD modules were designed for both flat‐sheet membranes and tubular membrane configurations. The process performance was preliminarily evaluated by the permeate flux stabilities. The module configuration design and air sparging used in the MDBR process were tested. Flux declines were observed for the thin flat‐sheet hydrophobic membranes. Tubular membrane modules provided more stable permeate fluxes probably due to the turbulent condition generated from air sparging injected inside the tubular membrane bundles. The experiments with the submerged tubular MD module gave stable fluxes of approximately 5 L/m2 h over 2 weeks at a bioreactor temperature of 56 °C. The total organic carbon in the permeate was consistently lower than 0.7 mg/L for all experiments. A submerged membrane distillation bioreactor is experimentally demonstrated for wastewater reuse to produce high quality permeate in a single‐step within a compact process. Subject to the availability of waste heat/solar thermal energy and a cooling system to exchange heat with a cooler natural resource, the MDBR may offer a low primary energy process with a very high permeate quality and a stable flux, at a practical value in a small foot print configuration.
AbstractList A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally demonstrated in this article. Since organic particles are rejected by an ‘evaporation’ mechanism, the retention time of non‐volatile soluble and small organics in the submerged membrane distillation bioreactor (MDBR) is independent of the hydraulic retention time (mainly water and volatiles). A high permeate quality can be obtained in the one‐step compact process. The submerged MD modules were designed for both flat‐sheet membranes and tubular membrane configurations. The process performance was preliminarily evaluated by the permeate flux stabilities. The module configuration design and air sparging used in the MDBR process were tested. Flux declines were observed for the thin flat‐sheet hydrophobic membranes. Tubular membrane modules provided more stable permeate fluxes probably due to the turbulent condition generated from air sparging injected inside the tubular membrane bundles. The experiments with the submerged tubular MD module gave stable fluxes of approximately 5 L/m2 h over 2 weeks at a bioreactor temperature of 56 °C. The total organic carbon in the permeate was consistently lower than 0.7 mg/L for all experiments. A submerged membrane distillation bioreactor is experimentally demonstrated for wastewater reuse to produce high quality permeate in a single‐step within a compact process. Subject to the availability of waste heat/solar thermal energy and a cooling system to exchange heat with a cooler natural resource, the MDBR may offer a low primary energy process with a very high permeate quality and a stable flux, at a practical value in a small foot print configuration.
A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally demonstrated in this article. Since organic particles are rejected by an ‘evaporation’ mechanism, the retention time of non‐volatile soluble and small organics in the submerged membrane distillation bioreactor (MDBR) is independent of the hydraulic retention time (mainly water and volatiles). A high permeate quality can be obtained in the one‐step compact process. The submerged MD modules were designed for both flat‐sheet membranes and tubular membrane configurations. The process performance was preliminarily evaluated by the permeate flux stabilities. The module configuration design and air sparging used in the MDBR process were tested. Flux declines were observed for the thin flat‐sheet hydrophobic membranes. Tubular membrane modules provided more stable permeate fluxes probably due to the turbulent condition generated from air sparging injected inside the tubular membrane bundles. The experiments with the submerged tubular MD module gave stable fluxes of approximately 5 L/m 2 h over 2 weeks at a bioreactor temperature of 56 °C. The total organic carbon in the permeate was consistently lower than 0.7 mg/L for all experiments.
A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally demonstrated in this article. Since organic particles are rejected by an evaporation mechanism, the retention time of non-volatile soluble and small organics in the submerged membrane distillation bioreactor (MDBR) is independent of the hydraulic retention time (mainly water and volatiles). A high permeate quality can be obtained in the one-step compact process. The submerged MD modules were designed for both flat-sheet membranes and tubular membrane configurations. The process performance was preliminarily evaluated by the permeate flux stabilities. The module configuration design and air sparging used in the MDBR process were tested. Flux declines were observed for the thin flat-sheet hydrophobic membranes. Tubular membrane modules provided more stable permeate fluxes probably due to the turbulent condition generated from air sparging injected inside the tubular membrane bundles. The experiments with the submerged tubular MD module gave stable fluxes of approximately 5 L/m2 h over 2 weeks at a bioreactor temperature of 56 deg C. The total organic carbon in the permeate was consistently lower than 0.7 mg/L for all experiments.
Author Wong, F. S.
Pasquier, A. C. S.
Bing, W.
Fane, A. G.
Phattaranawik, J.
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Issue 1
Keywords Membrane separation
Design
Membrane reactor
Bioreactor
Tubular membrane
Stability
Membrane distillation
Total organic carbon
Evaporation
Retention
Language English
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– ident: e_1_2_1_11_2
  doi: 10.1016/S0168-1656(02)00025-1
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  doi: 10.1016/0003-2697(76)90527-3
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Snippet A hybrid process incorporating membrane distillation in a submerged membrane bioreactor operated at elevated temperature is developed and experimentally...
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StartPage 38
SubjectTerms Applied sciences
Biological and medical sciences
Biotechnology
Chemical engineering
Design
Distillation
Exact sciences and technology
Fouling
Fundamental and applied biological sciences. Psychology
Membrane bioreactor
Membrane separation (reverse osmosis, dialysis...)
Membranes
Methods. Procedures. Technologies
Others
Reactors
Various methods and equipments
Vertical baffles
Title Experimental Study and Design of a Submerged Membrane Distillation Bioreactor
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fceat.200800498
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Volume 32
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