Power System Dynamic and Stability Issues in Modern Power Systems Facing Energy Transition
Dynamic stability basically deals with the interactions between the system's components. Following a disturbance, the system's variables undergo transitions that can induce oscillations in active and reactive power generation, resulting in the occurrence of voltage oscillatory modes and fr...
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| description | Dynamic stability basically deals with the interactions between the system's components. Following a disturbance, the system's variables undergo transitions that can induce oscillations in active and reactive power generation, resulting in the occurrence of voltage oscillatory modes and frequency deviation in the system. Depending on the entity of the disturbance, the small- or large-signal stability of the system under consideration can be investigated. The introduction of RES-based generation that does not participate in the network services (i.e., frequency and voltage regulation) due to lack of special controls will undoubtedly affect both the overall frequency and voltage stability. Large-scale transient stability is also a concern not to be overlooked: inverter-based wind and solar generation have different angle/speed swing behaviors with respect to traditional generation due to reduced inertia, different voltage swing behaviors due to different voltage control systems, different power flow patterns, and different displacements of synchronous generation at key locations. Therefore, although power system stability and dynamics have played a very central role in the management and study of electrical power systems thus far, it is also true that the emerging scenario requires new methodologies, technologies, and analyses. In this light, the current Special Issue aims to collect contributions (i.e., research papers and review articles) on power system dynamics and stability from experts in academia and industry. |
| doi_str_mv | 10.3390/books978-3-0365-6036-6 |
| format | Book |
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Following a disturbance, the system's variables undergo transitions that can induce oscillations in active and reactive power generation, resulting in the occurrence of voltage oscillatory modes and frequency deviation in the system. Depending on the entity of the disturbance, the small- or large-signal stability of the system under consideration can be investigated. The introduction of RES-based generation that does not participate in the network services (i.e., frequency and voltage regulation) due to lack of special controls will undoubtedly affect both the overall frequency and voltage stability. Large-scale transient stability is also a concern not to be overlooked: inverter-based wind and solar generation have different angle/speed swing behaviors with respect to traditional generation due to reduced inertia, different voltage swing behaviors due to different voltage control systems, different power flow patterns, and different displacements of synchronous generation at key locations. Therefore, although power system stability and dynamics have played a very central role in the management and study of electrical power systems thus far, it is also true that the emerging scenario requires new methodologies, technologies, and analyses. In this light, the current Special Issue aims to collect contributions (i.e., research papers and review articles) on power system dynamics and stability from experts in academia and industry.</description><identifier>ISBN: 9783036560359</identifier><identifier>ISBN: 3036560351</identifier><identifier>ISBN: 303656036X</identifier><identifier>ISBN: 9783036560366</identifier><identifier>DOI: 10.3390/books978-3-0365-6036-6</identifier><language>eng</language><publisher>Basel: MDPI - Multidisciplinary Digital Publishing Institute</publisher><subject>100% converter-interfaced generation ; active power modulation ; ancillary services ; battery energy storage system ; battery energy storage system (BESS) ; co-simulation ; compound poisson stochastic process ; converter-interfaced generation ; cyber physical system (CPS) ; demand response ; distributed energy resources ; energy management system (EMS) ; fast frequency measurement ; fast frequency regulation ; forced oscillation ; frequency control ; frequency nadir estimation ; frequency stability ; grid vulnerability analysis ; grid-forming ; History of engineering and technology ; inertia estimation ; inverter-based resources ; inverter-based resources (IBRs) ; large perturbation angle stability ; legacy resources ; line modelling ; load modelling ; low inertia systems ; microgrids ; modular multilevel converters ; national power grid ; Ornstein–Uhlenbeck stochastic process ; PMU ; power hardware-in-the-loop ; power system analysis ; power system inertia ; power system restoration ; power system stability ; primary frequency control ; primary frequency regulation ; reactive compensation ; real-time dynamic simulation ; renewable power generators ; rotor angle stability ; small perturbation angle stability ; small-signal stability ; synthetic inertia ; Technology, Engineering, Agriculture, Industrial processes ; Technology: general issues ; transient stability ; virtual inertia ; virtual synchronous machine ; voltage stability</subject><creationdate>2022</creationdate><tpages>224</tpages><format>224</format><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>306,776,780,782,27902,55285</link.rule.ids></links><search><contributor>Pisani, Cosimo</contributor><contributor>Giannuzzi, Giorgio Maria</contributor><title>Power System Dynamic and Stability Issues in Modern Power Systems Facing Energy Transition</title><description>Dynamic stability basically deals with the interactions between the system's components. Following a disturbance, the system's variables undergo transitions that can induce oscillations in active and reactive power generation, resulting in the occurrence of voltage oscillatory modes and frequency deviation in the system. Depending on the entity of the disturbance, the small- or large-signal stability of the system under consideration can be investigated. The introduction of RES-based generation that does not participate in the network services (i.e., frequency and voltage regulation) due to lack of special controls will undoubtedly affect both the overall frequency and voltage stability. Large-scale transient stability is also a concern not to be overlooked: inverter-based wind and solar generation have different angle/speed swing behaviors with respect to traditional generation due to reduced inertia, different voltage swing behaviors due to different voltage control systems, different power flow patterns, and different displacements of synchronous generation at key locations. Therefore, although power system stability and dynamics have played a very central role in the management and study of electrical power systems thus far, it is also true that the emerging scenario requires new methodologies, technologies, and analyses. In this light, the current Special Issue aims to collect contributions (i.e., research papers and review articles) on power system dynamics and stability from experts in academia and industry.</description><subject>100% converter-interfaced generation</subject><subject>active power modulation</subject><subject>ancillary services</subject><subject>battery energy storage system</subject><subject>battery energy storage system (BESS)</subject><subject>co-simulation</subject><subject>compound poisson stochastic process</subject><subject>converter-interfaced generation</subject><subject>cyber physical system (CPS)</subject><subject>demand response</subject><subject>distributed energy resources</subject><subject>energy management system (EMS)</subject><subject>fast frequency measurement</subject><subject>fast frequency regulation</subject><subject>forced oscillation</subject><subject>frequency control</subject><subject>frequency nadir estimation</subject><subject>frequency stability</subject><subject>grid vulnerability analysis</subject><subject>grid-forming</subject><subject>History of engineering and technology</subject><subject>inertia estimation</subject><subject>inverter-based resources</subject><subject>inverter-based resources (IBRs)</subject><subject>large perturbation angle stability</subject><subject>legacy resources</subject><subject>line modelling</subject><subject>load modelling</subject><subject>low inertia systems</subject><subject>microgrids</subject><subject>modular multilevel converters</subject><subject>national power grid</subject><subject>Ornstein–Uhlenbeck stochastic process</subject><subject>PMU</subject><subject>power hardware-in-the-loop</subject><subject>power system analysis</subject><subject>power system inertia</subject><subject>power system restoration</subject><subject>power system stability</subject><subject>primary frequency control</subject><subject>primary frequency regulation</subject><subject>reactive compensation</subject><subject>real-time dynamic simulation</subject><subject>renewable power generators</subject><subject>rotor angle stability</subject><subject>small perturbation angle stability</subject><subject>small-signal stability</subject><subject>synthetic inertia</subject><subject>Technology, Engineering, Agriculture, Industrial processes</subject><subject>Technology: general issues</subject><subject>transient stability</subject><subject>virtual inertia</subject><subject>virtual synchronous machine</subject><subject>voltage stability</subject><isbn>9783036560359</isbn><isbn>3036560351</isbn><isbn>303656036X</isbn><isbn>9783036560366</isbn><fulltext>true</fulltext><rsrctype>book</rsrctype><creationdate>2022</creationdate><recordtype>book</recordtype><sourceid>V1H</sourceid><recordid>eNpNkEFLAzEQhQMiKHV_gSD5A9Fs4uwmR6mtFioKrRcvZTaZLdE2kc2K7L93Wz14eQ8-eI-Zx9hVKa-1tvKmSekj29oILaSuQFSjiuqEFSPTBzICsGesyPldSqmstArUOXt7Sd_U8dWQe9rz-yHiPjiO0fNVj03YhX7gi5y_KPMQ-VPy1EX-P5P5HF2IWz6L1G0Hvu4w5tCHFC_YaYu7TMWfT9jrfLaePorl88NiercUW6jGIx16f6sVtECVdKZUTrUleU-SSFFpaoNNDc6ALa0FBO09YmPAkWxrpYyesMvf3oSfFDc-4XGMjYXD5z-vFFRh</recordid><startdate>2022</startdate><enddate>2022</enddate><general>MDPI - Multidisciplinary Digital Publishing Institute</general><scope>V1H</scope></search><sort><creationdate>2022</creationdate><title>Power System Dynamic and Stability Issues in Modern Power Systems Facing Energy Transition</title></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-g5636-cadd4325f5e60c812c2f1edde0ee2e1878ab75c8591995a53ddaab85ce0f72283</frbrgroupid><rsrctype>books</rsrctype><prefilter>books</prefilter><language>eng</language><creationdate>2022</creationdate><topic>100% converter-interfaced generation</topic><topic>active power modulation</topic><topic>ancillary services</topic><topic>battery energy storage system</topic><topic>battery energy storage system (BESS)</topic><topic>co-simulation</topic><topic>compound poisson stochastic process</topic><topic>converter-interfaced generation</topic><topic>cyber physical system (CPS)</topic><topic>demand response</topic><topic>distributed energy resources</topic><topic>energy management system (EMS)</topic><topic>fast frequency measurement</topic><topic>fast frequency regulation</topic><topic>forced oscillation</topic><topic>frequency control</topic><topic>frequency nadir estimation</topic><topic>frequency stability</topic><topic>grid vulnerability analysis</topic><topic>grid-forming</topic><topic>History of engineering and technology</topic><topic>inertia estimation</topic><topic>inverter-based resources</topic><topic>inverter-based resources (IBRs)</topic><topic>large perturbation angle stability</topic><topic>legacy resources</topic><topic>line modelling</topic><topic>load modelling</topic><topic>low inertia systems</topic><topic>microgrids</topic><topic>modular multilevel converters</topic><topic>national power grid</topic><topic>Ornstein–Uhlenbeck stochastic process</topic><topic>PMU</topic><topic>power hardware-in-the-loop</topic><topic>power system analysis</topic><topic>power system inertia</topic><topic>power system restoration</topic><topic>power system stability</topic><topic>primary frequency control</topic><topic>primary frequency regulation</topic><topic>reactive compensation</topic><topic>real-time dynamic simulation</topic><topic>renewable power generators</topic><topic>rotor angle stability</topic><topic>small perturbation angle stability</topic><topic>small-signal stability</topic><topic>synthetic inertia</topic><topic>Technology, Engineering, Agriculture, Industrial processes</topic><topic>Technology: general issues</topic><topic>transient stability</topic><topic>virtual inertia</topic><topic>virtual synchronous machine</topic><topic>voltage stability</topic><toplevel>online_resources</toplevel><collection>DOAB: Directory of Open Access Books</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Pisani, Cosimo</au><au>Giannuzzi, Giorgio Maria</au><format>book</format><genre>book</genre><ristype>BOOK</ristype><btitle>Power System Dynamic and Stability Issues in Modern Power Systems Facing Energy Transition</btitle><date>2022</date><risdate>2022</risdate><isbn>9783036560359</isbn><isbn>3036560351</isbn><isbn>303656036X</isbn><isbn>9783036560366</isbn><abstract>Dynamic stability basically deals with the interactions between the system's components. Following a disturbance, the system's variables undergo transitions that can induce oscillations in active and reactive power generation, resulting in the occurrence of voltage oscillatory modes and frequency deviation in the system. Depending on the entity of the disturbance, the small- or large-signal stability of the system under consideration can be investigated. The introduction of RES-based generation that does not participate in the network services (i.e., frequency and voltage regulation) due to lack of special controls will undoubtedly affect both the overall frequency and voltage stability. Large-scale transient stability is also a concern not to be overlooked: inverter-based wind and solar generation have different angle/speed swing behaviors with respect to traditional generation due to reduced inertia, different voltage swing behaviors due to different voltage control systems, different power flow patterns, and different displacements of synchronous generation at key locations. Therefore, although power system stability and dynamics have played a very central role in the management and study of electrical power systems thus far, it is also true that the emerging scenario requires new methodologies, technologies, and analyses. In this light, the current Special Issue aims to collect contributions (i.e., research papers and review articles) on power system dynamics and stability from experts in academia and industry.</abstract><cop>Basel</cop><pub>MDPI - Multidisciplinary Digital Publishing Institute</pub><doi>10.3390/books978-3-0365-6036-6</doi><tpages>224</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | 100% converter-interfaced generation active power modulation ancillary services battery energy storage system battery energy storage system (BESS) co-simulation compound poisson stochastic process converter-interfaced generation cyber physical system (CPS) demand response distributed energy resources energy management system (EMS) fast frequency measurement fast frequency regulation forced oscillation frequency control frequency nadir estimation frequency stability grid vulnerability analysis grid-forming History of engineering and technology inertia estimation inverter-based resources inverter-based resources (IBRs) large perturbation angle stability legacy resources line modelling load modelling low inertia systems microgrids modular multilevel converters national power grid Ornstein–Uhlenbeck stochastic process PMU power hardware-in-the-loop power system analysis power system inertia power system restoration power system stability primary frequency control primary frequency regulation reactive compensation real-time dynamic simulation renewable power generators rotor angle stability small perturbation angle stability small-signal stability synthetic inertia Technology, Engineering, Agriculture, Industrial processes Technology: general issues transient stability virtual inertia virtual synchronous machine voltage stability |
| title | Power System Dynamic and Stability Issues in Modern Power Systems Facing Energy Transition |
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