Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
Basic knowledge on the hydrodynamics in the spacer-filled spiral wound membrane (SWM) channel is vital for the understanding of the formation of concentration polarization at the membrane interface. In the present study, a 3D laminar transient hydrodynamics modeling approach was used to study and op...
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2009
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my.utp.eprints.5042017-01-19T08:25:44Z Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel K.K., Lau M.Z., Abu Bakar A.L., Ahmad T., Murugesan TP Chemical technology Basic knowledge on the hydrodynamics in the spacer-filled spiral wound membrane (SWM) channel is vital for the understanding of the formation of concentration polarization at the membrane interface. In the present study, a 3D laminar transient hydrodynamics modeling approach was used to study and optimize the spacer mesh angle for the SWM feed spacer. Based on the simulated results, the optimal spacer mesh angle that yields the minimum effective concentration polarization factor, was found to be α120β30. Under this optimal mesh angles, spacer α120β30 also demonstrated the highest magnitude of unsteady hydrodynamics (which adjacent to the membrane wall) at a moderate degree of pressure loss. © 2009 Elsevier B.V. All rights reserved. 2009 Citation Index Journal NonPeerReviewed application/pdf http://eprints.utp.edu.my/504/1/paper.pdf http://www.scopus.com/inward/record.url?eid=2-s2.0-68949184708&partnerID=40&md5=a8286069574a14494b88fbc5275be05c K.K., Lau and M.Z., Abu Bakar and A.L., Ahmad and T., Murugesan (2009) Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel. [Citation Index Journal] http://eprints.utp.edu.my/504/ |
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TP Chemical technology K.K., Lau M.Z., Abu Bakar A.L., Ahmad T., Murugesan Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel |
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Basic knowledge on the hydrodynamics in the spacer-filled spiral wound membrane (SWM) channel is vital for the understanding of the formation of concentration polarization at the membrane interface. In the present study, a 3D laminar transient hydrodynamics modeling approach was used to study and optimize the spacer mesh angle for the SWM feed spacer. Based on the simulated results, the optimal spacer mesh angle that yields the minimum effective concentration polarization factor, was found to be α120β30. Under this optimal mesh angles, spacer α120β30 also demonstrated the highest magnitude of unsteady hydrodynamics (which adjacent to the membrane wall) at a moderate degree of pressure loss. © 2009 Elsevier B.V. All rights reserved.
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| format |
Citation Index Journal |
| author |
K.K., Lau M.Z., Abu Bakar A.L., Ahmad T., Murugesan |
| author_facet |
K.K., Lau M.Z., Abu Bakar A.L., Ahmad T., Murugesan |
| author_sort |
K.K., Lau |
| title |
Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
|
| title_short |
Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
|
| title_full |
Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
|
| title_fullStr |
Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
|
| title_full_unstemmed |
Feed spacer mesh angle: 3D modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel
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| title_sort |
feed spacer mesh angle: 3d modeling, simulation and optimization based on unsteady hydrodynamic in spiral wound membrane channel |
| publishDate |
2009 |
| url |
http://eprints.utp.edu.my/504/1/paper.pdf http://www.scopus.com/inward/record.url?eid=2-s2.0-68949184708&partnerID=40&md5=a8286069574a14494b88fbc5275be05c http://eprints.utp.edu.my/504/ |
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1738655072400703488 |
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13.214268 |