01149nam a2200325 i 450099100101002970753620020507105108.0970307s1973 uk ||| | eng 008017292Xb10161053-39ule_instLE00640613ExLDip.to Fisicaita53.2.253.8530.1'41QC661Steiner, Karl Heinz462431Interactions between electromagnetic fields and matter /Karl-Heinz Steiner ; edited by H. StumpfOxford :Pergamon,1973xvi, 351 p. :ill. ;24 cm.Vieweg tracts in pure and applied physics ;1Bibliography : p. 324-343.Electromagnetic interactionsStumpf, H..b1016105317-02-1727-06-02991001010029707536LE006 53.2.2 STE12006000045247le006-E0.00-l- 00000.i1019531227-06-02Interactions between electromagnetic fields and matter188551UNISALENTOle00601-01-97ma -enguk 0104308nam 2201009z- 450 991055761420332120220321(CKB)5400000000045260(oapen)https://directory.doabooks.org/handle/20.500.12854/79638(oapen)doab79638(EXLCZ)99540000000004526020202203d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierProtection of Future Electricity SystemsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (208 p.)3-0365-3016-9 3-0365-3017-7 The electrical energy industry is undergoing dramatic changes: massive deployment of renewables, increasing share of DC networks at transmission and distribution levels, and at the same time, a continuing reduction in conventional synchronous generation, all contribute to a situation where a variety of technical and economic challenges emerge. As the society's reliance on electrical power continues to increase as a result of international decarbonisation commitments, the need for secure and uninterrupted delivery of electrical energy to all customers has never been greater. Power system protection plays an important enabling role in future decarbonized energy systems. This book includes ten papers covering a wide range of topics related to protection system problems and solutions, such as adaptive protection, protection of HVDC and LVDC systems, unconventional or enhanced protection methods, protection of superconducting transmission cables, and high voltage lightning protection. This volume has been edited by Adam Dyśko, Senior Lecturer at the University of Strathclyde, UK, and Dimitrios Tzelepis, Research Fellow at the University of Strathclyde.History of engineering & technologybicsscTechnology: general issuesbicssc±230 kV MMC-HVDCAC microgridadaptive auto-reclosingadaptive protectionbidirectional DCCBbuilding integrated photovoltaic (BIPV)coordination optimizationcoppers stabilizerDC circuit breakerDC gridsDC transmission linedecentralized protection schemedistributed generationenergy dissipationEV transmission linesexternal elementsfault analysisfault currentfault current limiting featurefault protectionhierarchical protection systemhigh temperatureHilbert-Huang transformhybrid DCCBIEC 61850 GOOSE protocolinverse-time over-current protectionlightning attachment characteristicslightning energy withstand capabilitylocal actionlocal detectionlocal layerlow voltage direct current gridsmicrogridMMC-HVDCmulti-information fusionn/anumerical and experimental analysisplug-and-play systemspower generation-sidepower system protectionprotectionquenchsolid-state circuit breakersstation layersubstation automationsuperconducting cablesuperconducting tapesystem layertransient componenttransient faultwavelet entropyzero-crossing DCCBHistory of engineering & technologyTechnology: general issuesDyśko Adamedt1295552Tzelepis DimitriosedtDyśko AdamothTzelepis DimitriosothBOOK9910557614203321Protection of Future Electricity Systems3023610UNINA