Fuzzy optimization for screening of sustainable chemical reaction pathways
Screening of chemical reaction pathway appears to be one of the most critical tasks in new chemical process development. Various methods for synthesis of chemical reaction pathway such as logic-centered, direct associative methods and optimization-based approaches have been proposed. However, majori...
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my.utm.470152017-09-28T07:26:18Z http://eprints.utm.my/id/eprint/47015/ Fuzzy optimization for screening of sustainable chemical reaction pathways Liew, Weng Hui Hassim, Mimi Haryani Ng, Denny K.S. Hurme, Markku TP Chemical technology Screening of chemical reaction pathway appears to be one of the most critical tasks in new chemical process development. Various methods for synthesis of chemical reaction pathway such as logic-centered, direct associative methods and optimization-based approaches have been proposed. However, majority of the previous works are focusing on economic and environmental performance; while very few have taken inherent safety and health into consideration. In order to develop a sustainable chemical reaction pathway, all inherent SHE aspects and economic should be considered. The application of inherent approach during early design stage allows the reduction and elimination of hazards intrinsically and avoids costly modification or add-on system. In this work, fuzzy optimization is adapted for screening of sustainable chemical reaction pathway by minimizing the impacts of inherent safety, health and environment whilst maximizing the economic performance. To illustrate the proposed approach, a case study on synthesis of methyl methacrylate (MMA) is presented. 2012 Article PeerReviewed Liew, Weng Hui and Hassim, Mimi Haryani and Ng, Denny K.S. and Hurme, Markku (2012) Fuzzy optimization for screening of sustainable chemical reaction pathways. Chemical Engineering Transactions, 29 . pp. 529-534. ISSN 1974-9791 http://dx.doi.org/10.3303/CET1229089 |
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TP Chemical technology Liew, Weng Hui Hassim, Mimi Haryani Ng, Denny K.S. Hurme, Markku Fuzzy optimization for screening of sustainable chemical reaction pathways |
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Screening of chemical reaction pathway appears to be one of the most critical tasks in new chemical process development. Various methods for synthesis of chemical reaction pathway such as logic-centered, direct associative methods and optimization-based approaches have been proposed. However, majority of the previous works are focusing on economic and environmental performance; while very few have taken inherent safety and health into consideration. In order to develop a sustainable chemical reaction pathway, all inherent SHE aspects and economic should be considered. The application of inherent approach during early design stage allows the reduction and elimination of hazards intrinsically and avoids costly modification or add-on system. In this work, fuzzy optimization is adapted for screening of sustainable chemical reaction pathway by minimizing the impacts of inherent safety, health and environment whilst maximizing the economic performance. To illustrate the proposed approach, a case study on synthesis of methyl methacrylate (MMA) is presented. |
| format |
Article |
| author |
Liew, Weng Hui Hassim, Mimi Haryani Ng, Denny K.S. Hurme, Markku |
| author_facet |
Liew, Weng Hui Hassim, Mimi Haryani Ng, Denny K.S. Hurme, Markku |
| author_sort |
Liew, Weng Hui |
| title |
Fuzzy optimization for screening of sustainable chemical reaction pathways |
| title_short |
Fuzzy optimization for screening of sustainable chemical reaction pathways |
| title_full |
Fuzzy optimization for screening of sustainable chemical reaction pathways |
| title_fullStr |
Fuzzy optimization for screening of sustainable chemical reaction pathways |
| title_full_unstemmed |
Fuzzy optimization for screening of sustainable chemical reaction pathways |
| title_sort |
fuzzy optimization for screening of sustainable chemical reaction pathways |
| publishDate |
2012 |
| url |
http://eprints.utm.my/id/eprint/47015/ http://dx.doi.org/10.3303/CET1229089 |
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1643652209715445760 |
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13.154949 |