Development of enzymatic member reactor (EMR) for cyclodextrins production
This study investigated on the fouling mechanisms in ultrafiltration membrane during separation of cyclodextrins from starch and CGTase. The Resistance-In-Series Model was used to identify the responsible hydraulic resistances. The result showed that the weak adsorption fouling resistance (ra1.) was...
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2007
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my.utm.72512017-10-22T08:55:12Z http://eprints.utm.my/id/eprint/7251/ Development of enzymatic member reactor (EMR) for cyclodextrins production A. M., Sakinah Ismail, Ahmad Fauzi Illias, Md Rosli Hassan, Osman TP Chemical technology This study investigated on the fouling mechanisms in ultrafiltration membrane during separation of cyclodextrins from starch and CGTase. The Resistance-In-Series Model was used to identify the responsible hydraulic resistances. The result showed that the weak adsorption fouling resistance (ra1.) was the main factor that contributed the rate and extent of flux decline. Moreover the significant organic fouling that is contributed by starch, CDs, CGTase and intermediate by-products in organic colloids and/or macromolecular revealed that the fouling potential was ra1> rg > rcp > ra2. The overall results indicate that the fouling mechanism consists of pore mouth adsorption and subsequently narrowing of the pores as those components (starch and CGTase) are small enough not to be excluded by steric considerations. In the latter stage unreacted starch would be accumulated to form gel/cake layer. The measured flux recovery of enzymatic membrane reactor for CDs production was about 95%. © 2007 Asian Network for Scientific Information. Asian Network for Scientific Information. 2007-08-01 Article PeerReviewed A. M., Sakinah and Ismail, Ahmad Fauzi and Illias, Md Rosli and Hassan, Osman (2007) Development of enzymatic member reactor (EMR) for cyclodextrins production. Journal of Applied Science, 7 (15). 2028 -2032. ISSN 1812-5654 http://doi.dx.org/10.3923/jas.2007.2028.2032 |
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TP Chemical technology A. M., Sakinah Ismail, Ahmad Fauzi Illias, Md Rosli Hassan, Osman Development of enzymatic member reactor (EMR) for cyclodextrins production |
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This study investigated on the fouling mechanisms in ultrafiltration membrane during separation of cyclodextrins from starch and CGTase. The Resistance-In-Series Model was used to identify the responsible hydraulic resistances. The result showed that the weak adsorption fouling resistance (ra1.) was the main factor that contributed the rate and extent of flux decline. Moreover the significant organic fouling that is contributed by starch, CDs, CGTase and intermediate by-products in organic colloids and/or macromolecular revealed that the fouling potential was ra1> rg > rcp > ra2. The overall results indicate that the fouling mechanism consists of pore mouth adsorption and subsequently narrowing of the pores as those components (starch and CGTase) are small enough not to be excluded by steric considerations. In the latter stage unreacted starch would be accumulated to form gel/cake layer. The measured flux recovery of enzymatic membrane reactor for CDs production was about 95%. © 2007 Asian Network for Scientific Information. |
| format |
Article |
| author |
A. M., Sakinah Ismail, Ahmad Fauzi Illias, Md Rosli Hassan, Osman |
| author_facet |
A. M., Sakinah Ismail, Ahmad Fauzi Illias, Md Rosli Hassan, Osman |
| author_sort |
A. M., Sakinah |
| title |
Development of enzymatic member reactor (EMR) for cyclodextrins production |
| title_short |
Development of enzymatic member reactor (EMR) for cyclodextrins production |
| title_full |
Development of enzymatic member reactor (EMR) for cyclodextrins production |
| title_fullStr |
Development of enzymatic member reactor (EMR) for cyclodextrins production |
| title_full_unstemmed |
Development of enzymatic member reactor (EMR) for cyclodextrins production |
| title_sort |
development of enzymatic member reactor (emr) for cyclodextrins production |
| publisher |
Asian Network for Scientific Information. |
| publishDate |
2007 |
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http://eprints.utm.my/id/eprint/7251/ http://doi.dx.org/10.3923/jas.2007.2028.2032 |
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1643644733089644544 |
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13.18916 |