04615nam 2201201z- 450 991055763430332120210501(CKB)5400000000045071(oapen)https://directory.doabooks.org/handle/20.500.12854/69320(oapen)doab69320(EXLCZ)99540000000004507120202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierHVDC/FACTS for Grid Services in Electric Power SystemsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (276 p.)3-03928-376-6 3-03928-377-4 Electric power systems are headed for a true changing of the guard, due to the urgent need for achieving sustainable energy delivery. Fortunately, the development of new technologies is driving the transition of power systems toward a carbon-free paradigm while maintaining the current standards of quality, efficiency, and resilience. The introduction of HVDC and FACTS in the 20th century, taking advantage of dramatic improvements in power electronics and control, gave rise to unprecedented levels of flexibility and speed of response in comparison with traditional electromechanical devices. This flexibility is nowadays required more than ever in order to solve a puzzle with pieces that do not always fit perfectly. This Special Issue aims to address the role that FACTS and HVDC systems can play in helping electric power systems face the challenges of the near future.History of engineering and technologybicsscancillary servicesblack startbreakersCHILcommunication latencycompensation abilitycongestion managementcontinuous commutation failurescontrol strategiescurrent-limiting inductorsDC blockingdistribution networksdisturbance observerdouble frequency ripplesdynamic capacitoremergency power supportFACTSfault current limitersfield testingfrequency controlgrid servicesharmonicsHigh voltage direct current (HVDC)high voltage direct current (HVDC) transmissionHVDC systemsHVDC systems based on voltage source converters (VSC-HVDC)HVDC transmissionhybrid AC/DC networkshybrid DC circuit breakerhybrid multi-terminal HVDChybrid power quality compensation systemimbalance suppressioninductive unbalanced loadkorean power systemlab testingLCCloss managementmodel reference controlMTDCmulti-terminalneural networknon-linear controlnon-superconducting fault current limiterspassive-based controlPHILpower compensationpower oscillationspower qualitypower system analysispower systemsreactive power compensationreplicareviewstabilitystandardsSTATCOMsubsynchronous resonance (SSR)synchronous power controllersynchronous voltage reversal (SVR)test signal methodthe thyristor-controlled L and C-type filter (TCL-CTF)thyristor controlled series capacitor (TCSC)transient stabilityunbalanced grid conditionsUPFCvirtual synchronous machinevoltage and reactive power controlvoltage source converterVSCVSC-HVDCHistory of engineering and technologyMaza-Ortega José Medt1297614Gómez-Expósito AntonioedtMaza-Ortega José MothGómez-Expósito AntonioothBOOK9910557634303321HVDC3024617UNINA