Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures

There are world tendencies to implement interconnected infrastructures of energy-water-waste-transportation-food-health-social systems to enhance the overall performance in normal and emergency situations where there are multiple interactions among them with possible conversions and improved efficie...

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Autor principal: Hossam A. Gabbar
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Lenguaje:EN
Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/06b2bc8383e441b4afb334f5d2cf06d2
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spelling oai:doaj.org-article:06b2bc8383e441b4afb334f5d2cf06d22021-11-25T17:26:05ZResiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures10.3390/en142274991996-1073https://doaj.org/article/06b2bc8383e441b4afb334f5d2cf06d22021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1073/14/22/7499https://doaj.org/toc/1996-1073There are world tendencies to implement interconnected infrastructures of energy-water-waste-transportation-food-health-social systems to enhance the overall performance in normal and emergency situations where there are multiple interactions among them with possible conversions and improved efficiencies. Hybrid energy systems are core elements within interconnected infrastructures with possible conversions among electricity, thermal, gas, hydrogen, waste, and transportation networks. This could be improved with storage systems and intelligent control systems. It is important to study resiliency of hybrid energy systems within interconnected infrastructures to ensure reduced risks and improved performance. This paper presents framework for the analysis of resiliency layers as related to protection layers. Case study of hybrid energy system as integrated with water, waste, and transportation infrastructures is presented where different resiliency and protection layers are assessed. Performance measures are modeled and evaluated for possible interconnection scenarios with internal and external factors that led to resiliency demands. Resiliency layers could trigger protection layers under certain conditions, which are evaluated to achieve high performance hybrid energy systems within interconnected infrastructures. The proposed approach will support urban, small, and remote communities to achieve high performance interconnected infrastructures for normal and emergency situations.Hossam A. GabbarMDPI AGarticleresiliency analysisindependent resiliency layersindependent protection layersindependent resiliency and protection layersinterconnected systemsresilient systemsTechnologyTENEnergies, Vol 14, Iss 7499, p 7499 (2021)
institution DOAJ
collection DOAJ
language EN
topic resiliency analysis
independent resiliency layers
independent protection layers
independent resiliency and protection layers
interconnected systems
resilient systems
Technology
T
spellingShingle resiliency analysis
independent resiliency layers
independent protection layers
independent resiliency and protection layers
interconnected systems
resilient systems
Technology
T
Hossam A. Gabbar
Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
description There are world tendencies to implement interconnected infrastructures of energy-water-waste-transportation-food-health-social systems to enhance the overall performance in normal and emergency situations where there are multiple interactions among them with possible conversions and improved efficiencies. Hybrid energy systems are core elements within interconnected infrastructures with possible conversions among electricity, thermal, gas, hydrogen, waste, and transportation networks. This could be improved with storage systems and intelligent control systems. It is important to study resiliency of hybrid energy systems within interconnected infrastructures to ensure reduced risks and improved performance. This paper presents framework for the analysis of resiliency layers as related to protection layers. Case study of hybrid energy system as integrated with water, waste, and transportation infrastructures is presented where different resiliency and protection layers are assessed. Performance measures are modeled and evaluated for possible interconnection scenarios with internal and external factors that led to resiliency demands. Resiliency layers could trigger protection layers under certain conditions, which are evaluated to achieve high performance hybrid energy systems within interconnected infrastructures. The proposed approach will support urban, small, and remote communities to achieve high performance interconnected infrastructures for normal and emergency situations.
format article
author Hossam A. Gabbar
author_facet Hossam A. Gabbar
author_sort Hossam A. Gabbar
title Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
title_short Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
title_full Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
title_fullStr Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
title_full_unstemmed Resiliency Analysis of Hybrid Energy Systems within Interconnected Infrastructures
title_sort resiliency analysis of hybrid energy systems within interconnected infrastructures
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/06b2bc8383e441b4afb334f5d2cf06d2
work_keys_str_mv AT hossamagabbar resiliencyanalysisofhybridenergysystemswithininterconnectedinfrastructures
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