Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities

Manufacturing industries are continually looking for resource conservation to achieve market competitiveness along with minimum waste discharge for environmental and societal responsibilities. Cooperation between industries to achieve resource sharing through reusing and recycling strategies play a...

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Autores principales: Sheetal Jain, Hon Huin Chin, Santanu Bandyopadhyay, Jirí Jaromír Klemeš
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Publicado: AIDIC Servizi S.r.l. 2021
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spelling oai:doaj.org-article:38d15f562659427e85046165f92fdc552021-11-15T21:49:02ZOptimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities10.3303/CET21880172283-9216https://doaj.org/article/38d15f562659427e85046165f92fdc552021-11-01T00:00:00Zhttps://www.cetjournal.it/index.php/cet/article/view/11810https://doaj.org/toc/2283-9216Manufacturing industries are continually looking for resource conservation to achieve market competitiveness along with minimum waste discharge for environmental and societal responsibilities. Cooperation between industries to achieve resource sharing through reusing and recycling strategies play a vital role in optimising overall resource consumption, striving towards optimal industrial or urban symbiosis. This paper aims to apply the optimisation framework in a constrained source-sink network considering multiple zones. A special type of constrained resource conservation network, known as segregated targeting problem with dedicated sources and external resources, is considered. The problem contains a set of zones with their own sources and demands and a dedicated resource specified for individual zones. A set of internal sources, freely available for reuse, and external resources are shared among all the zones. In this work, multiple quality constraints that are restricting the allocation of the resources are considered. Unutilised dedicated sources from one zone are reused in other zones through different piping connections with a certain cost associated with it to maximise the utilisation of available sources. The objectives are to minimise the overall resource intake and the total cost for the whole network. This framework enables the selection of optimum zonal integration that yields the optimal cost or maximum resources recycling rate. The distinctive nature of zonal segregation, considering source sharing and multiple qualities, widens the scope of applicability of this approach. The method can be applied to various problem domains, such as regional material recovery networks, sector-wise energy planning, and financial planning.Sheetal JainHon Huin ChinSantanu BandyopadhyayJirí Jaromír KlemešAIDIC Servizi S.r.l.articleChemical engineeringTP155-156Computer engineering. Computer hardwareTK7885-7895ENChemical Engineering Transactions, Vol 88 (2021)
institution DOAJ
collection DOAJ
language EN
topic Chemical engineering
TP155-156
Computer engineering. Computer hardware
TK7885-7895
spellingShingle Chemical engineering
TP155-156
Computer engineering. Computer hardware
TK7885-7895
Sheetal Jain
Hon Huin Chin
Santanu Bandyopadhyay
Jirí Jaromír Klemeš
Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
description Manufacturing industries are continually looking for resource conservation to achieve market competitiveness along with minimum waste discharge for environmental and societal responsibilities. Cooperation between industries to achieve resource sharing through reusing and recycling strategies play a vital role in optimising overall resource consumption, striving towards optimal industrial or urban symbiosis. This paper aims to apply the optimisation framework in a constrained source-sink network considering multiple zones. A special type of constrained resource conservation network, known as segregated targeting problem with dedicated sources and external resources, is considered. The problem contains a set of zones with their own sources and demands and a dedicated resource specified for individual zones. A set of internal sources, freely available for reuse, and external resources are shared among all the zones. In this work, multiple quality constraints that are restricting the allocation of the resources are considered. Unutilised dedicated sources from one zone are reused in other zones through different piping connections with a certain cost associated with it to maximise the utilisation of available sources. The objectives are to minimise the overall resource intake and the total cost for the whole network. This framework enables the selection of optimum zonal integration that yields the optimal cost or maximum resources recycling rate. The distinctive nature of zonal segregation, considering source sharing and multiple qualities, widens the scope of applicability of this approach. The method can be applied to various problem domains, such as regional material recovery networks, sector-wise energy planning, and financial planning.
format article
author Sheetal Jain
Hon Huin Chin
Santanu Bandyopadhyay
Jirí Jaromír Klemeš
author_facet Sheetal Jain
Hon Huin Chin
Santanu Bandyopadhyay
Jirí Jaromír Klemeš
author_sort Sheetal Jain
title Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
title_short Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
title_full Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
title_fullStr Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
title_full_unstemmed Optimising Segregated Resource Conservation Network with Cross-Zonal Transfer for Multiple Resources and Qualities
title_sort optimising segregated resource conservation network with cross-zonal transfer for multiple resources and qualities
publisher AIDIC Servizi S.r.l.
publishDate 2021
url https://doaj.org/article/38d15f562659427e85046165f92fdc55
work_keys_str_mv AT sheetaljain optimisingsegregatedresourceconservationnetworkwithcrosszonaltransferformultipleresourcesandqualities
AT honhuinchin optimisingsegregatedresourceconservationnetworkwithcrosszonaltransferformultipleresourcesandqualities
AT santanubandyopadhyay optimisingsegregatedresourceconservationnetworkwithcrosszonaltransferformultipleresourcesandqualities
AT jirijaromirklemes optimisingsegregatedresourceconservationnetworkwithcrosszonaltransferformultipleresourcesandqualities
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