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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.

Technology: general issues --- History of engineering & technology --- decentralized protection scheme --- fault analysis --- low voltage direct current grids --- plug-and-play systems --- solid-state circuit breakers --- DC grids --- fault protection --- local detection --- local action --- DC circuit breaker --- AC microgrid --- adaptive protection --- IEC 61850 GOOSE protocol --- substation automation --- adaptive auto-reclosing --- power system protection --- EV transmission lines --- transient fault --- Hilbert–Huang transform --- microgrid --- distributed generation --- inverse-time over-current protection --- coordination optimization --- superconducting cable --- quench --- high temperature --- coppers stabilizer --- superconducting tape --- fault current limiting feature --- power generation-side --- multi-information fusion --- hierarchical protection system --- system layer --- station layer --- local layer --- wavelet entropy --- transient component --- MMC-HVDC --- protection --- building integrated photovoltaic (BIPV) --- lightning attachment characteristics --- lightning energy withstand capability --- numerical and experimental analysis --- ±230 kV MMC-HVDC --- zero-crossing DCCB --- DC transmission line --- fault current --- hybrid DCCB --- bidirectional DCCB --- external elements --- energy dissipation --- n/a --- Hilbert-Huang transform

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

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.

Technology: general issues --- History of engineering & technology --- decentralized protection scheme --- fault analysis --- low voltage direct current grids --- plug-and-play systems --- solid-state circuit breakers --- DC grids --- fault protection --- local detection --- local action --- DC circuit breaker --- AC microgrid --- adaptive protection --- IEC 61850 GOOSE protocol --- substation automation --- adaptive auto-reclosing --- power system protection --- EV transmission lines --- transient fault --- Hilbert-Huang transform --- microgrid --- distributed generation --- inverse-time over-current protection --- coordination optimization --- superconducting cable --- quench --- high temperature --- coppers stabilizer --- superconducting tape --- fault current limiting feature --- power generation-side --- multi-information fusion --- hierarchical protection system --- system layer --- station layer --- local layer --- wavelet entropy --- transient component --- MMC-HVDC --- protection --- building integrated photovoltaic (BIPV) --- lightning attachment characteristics --- lightning energy withstand capability --- numerical and experimental analysis --- ±230 kV MMC-HVDC --- zero-crossing DCCB --- DC transmission line --- fault current --- hybrid DCCB --- bidirectional DCCB --- external elements --- energy dissipation --- decentralized protection scheme --- fault analysis --- low voltage direct current grids --- plug-and-play systems --- solid-state circuit breakers --- DC grids --- fault protection --- local detection --- local action --- DC circuit breaker --- AC microgrid --- adaptive protection --- IEC 61850 GOOSE protocol --- substation automation --- adaptive auto-reclosing --- power system protection --- EV transmission lines --- transient fault --- Hilbert-Huang transform --- microgrid --- distributed generation --- inverse-time over-current protection --- coordination optimization --- superconducting cable --- quench --- high temperature --- coppers stabilizer --- superconducting tape --- fault current limiting feature --- power generation-side --- multi-information fusion --- hierarchical protection system --- system layer --- station layer --- local layer --- wavelet entropy --- transient component --- MMC-HVDC --- protection --- building integrated photovoltaic (BIPV) --- lightning attachment characteristics --- lightning energy withstand capability --- numerical and experimental analysis --- ±230 kV MMC-HVDC --- zero-crossing DCCB --- DC transmission line --- fault current --- hybrid DCCB --- bidirectional DCCB --- external elements --- energy dissipation