Assisted heat transfer and shaft work targets for increased total site heat integration
Total Site Heat Integration (TSHI) provides a valuable framework for practical integration of multiple energy users. Previous studies have introduced the idea of utilising process heat recovery pockets to assist TSHI. However, these methods are shown to be effective for only some Total Site (TS) pro...
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Italian Association of Chemical Engineering - AIDIC
2016
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my.utm.717342017-11-15T04:43:20Z http://eprints.utm.my/id/eprint/71734/ Assisted heat transfer and shaft work targets for increased total site heat integration Walmsley, T. G. Atkins, M. J. Tarighaleslami, A. H. Liew, P. Y. TJ Mechanical engineering and machinery Total Site Heat Integration (TSHI) provides a valuable framework for practical integration of multiple energy users. Previous studies have introduced the idea of utilising process heat recovery pockets to assist TSHI. However, these methods are shown to be effective for only some Total Site (TS) problems. As a result, this paper presents a new method for calculating assisted heat transfer and shaft work targets for an example TS problem. Analysis results show that assisted heat transfer increases TSHI only when a process heat recovery pocket spans the TS Pinch Region. The maximum assisted TSHI can be targeted by comparing each heat recovery pocket to the Site Utility Grand Composite Curve (SUGCC) using background/foreground analysis. Where heat recovery pockets span two steam pressure levels away from the TS Pinch Region (usually above), the example shows the potential for assisted shaft work production. In this case, the source segment of the heat recovery pocket generates steam (e.g. MPS), which replaces steam that would otherwise have been extracted from a steam turbine. The sink segment of the heat recovery pocket consumes lower pressure steam (e.g. LPS), which is extracted from the turbine. If a heat recovery pocket falls outside these two situations (assuming direct inter-process integration is disallowed), the entire pocket should be recovered internal to a process. Italian Association of Chemical Engineering - AIDIC 2016 Article PeerReviewed Walmsley, T. G. and Atkins, M. J. and Tarighaleslami, A. H. and Liew, P. Y. (2016) Assisted heat transfer and shaft work targets for increased total site heat integration. Chemical Engineering Transactions, 52 . pp. 403-408. ISSN 2283-9216 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85009786137&doi=10.3303%2fCET1652068&partnerID=40&md5=99487bdf3ef9bdfa61e3a133add2e45e |
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TJ Mechanical engineering and machinery Walmsley, T. G. Atkins, M. J. Tarighaleslami, A. H. Liew, P. Y. Assisted heat transfer and shaft work targets for increased total site heat integration |
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Total Site Heat Integration (TSHI) provides a valuable framework for practical integration of multiple energy users. Previous studies have introduced the idea of utilising process heat recovery pockets to assist TSHI. However, these methods are shown to be effective for only some Total Site (TS) problems. As a result, this paper presents a new method for calculating assisted heat transfer and shaft work targets for an example TS problem. Analysis results show that assisted heat transfer increases TSHI only when a process heat recovery pocket spans the TS Pinch Region. The maximum assisted TSHI can be targeted by comparing each heat recovery pocket to the Site Utility Grand Composite Curve (SUGCC) using background/foreground analysis. Where heat recovery pockets span two steam pressure levels away from the TS Pinch Region (usually above), the example shows the potential for assisted shaft work production. In this case, the source segment of the heat recovery pocket generates steam (e.g. MPS), which replaces steam that would otherwise have been extracted from a steam turbine. The sink segment of the heat recovery pocket consumes lower pressure steam (e.g. LPS), which is extracted from the turbine. If a heat recovery pocket falls outside these two situations (assuming direct inter-process integration is disallowed), the entire pocket should be recovered internal to a process. |
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Article |
author |
Walmsley, T. G. Atkins, M. J. Tarighaleslami, A. H. Liew, P. Y. |
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Walmsley, T. G. Atkins, M. J. Tarighaleslami, A. H. Liew, P. Y. |
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Walmsley, T. G. |
title |
Assisted heat transfer and shaft work targets for increased total site heat integration |
title_short |
Assisted heat transfer and shaft work targets for increased total site heat integration |
title_full |
Assisted heat transfer and shaft work targets for increased total site heat integration |
title_fullStr |
Assisted heat transfer and shaft work targets for increased total site heat integration |
title_full_unstemmed |
Assisted heat transfer and shaft work targets for increased total site heat integration |
title_sort |
assisted heat transfer and shaft work targets for increased total site heat integration |
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Italian Association of Chemical Engineering - AIDIC |
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2016 |
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http://eprints.utm.my/id/eprint/71734/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85009786137&doi=10.3303%2fCET1652068&partnerID=40&md5=99487bdf3ef9bdfa61e3a133add2e45e |
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