Wind Power Integration into Power Systems: Stability and Control Aspects

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Autore:	Meegahapola Lasantha
Titolo:	Wind Power Integration into Power Systems: Stability and Control Aspects
Pubblicazione:	Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica:	1 electronic resource (264 p.)
Soggetto topico:	Technology: general issues
	Energy industries & utilities
Soggetto non controllato:	DFIG
	ES
	virtual inertia control
	capacity allocation
	fuzzy logic controller
	wind power generation
	multi-model predictive control
	fuzzy clustering
	virtual synchronous generator
	doubly fed induction generator
	sub-synchronous resonance
	impedance modeling
	renewable energy sources (RESs)
	regional RoCoF
	model-based operational planning
	linear sensitivity-based method (LSM)
	cumulant-based method (CBM)
	collaborative capacity planning
	distributed wind power (DWP)
	energy storage system (ESS)
	optimization
	variable-structure copula
	Reynolds-averaged Navier-Stokes method
	wind turbine wake model
	3D aerodynamic model
	turbulence model
	correction modules
	hybrid prediction model
	wavelet decomposition
	long short-term memory
	scenario analysis
	weak grids
	full-converter wind
	active power output
	control parameters
	subsynchronous oscillation
	eigenvalue analysis
	doubly fed induction generator (DFIG)
	wind generation
	frequency control
	artificial neural network (ANN)
	error following forget gate-based long short-term memory
	ultra-short-term prediction
	wind power
	load frequency control (LFC)
	wind farm
	particle swarm optimization
	kinetic energy
	inertial response
	low inertia
	the center of inertia
	frequency response metrics
	wind integration
	PSS/E
	FORTRAN
	electromechanical dynamics
	FCWG dynamics
	strong interaction
	electromechanical loop correlation ratio (ELCR)
	FCWG dynamic correlation ratio (FDCR)
	quasi- electromechanical loop correlation ratio (QELCR)
	permanent magnet synchronous generator (PMSG)
	supercapacitor energy storage (SCES)
	rotor overspeed control
	low voltage ride through (LVRT)
	capacity configuration of SCES
Persona (resp. second.):	BuSiqi
	MeegahapolaLasantha
Sommario/riassunto:	Power network operators are rapidly incorporating wind power generation into their power grids to meet the widely accepted carbon neutrality targets and facilitate the transition from conventional fossil-fuel energy sources to clean and low-carbon renewable energy sources. Complex stability issues, such as frequency, voltage, and oscillatory instability, are frequently reported in the power grids of many countries and regions (e.g., Germany, Denmark, Ireland, and South Australia) due to the substantially increased wind power generation. Control techniques, such as virtual/emulated inertia and damping controls, could be developed to address these stability issues, and additional devices, such as energy storage systems, can also be deployed to mitigate the adverse impact of high wind power generation on various system stability problems. Moreover, other wind power integration aspects, such as capacity planning and the short- and long-term forecasting of wind power generation, also require careful attention to ensure grid security and reliability. This book includes fourteen novel research articles published in this Energies Special Issue on Wind Power Integration into Power Systems: Stability and Control Aspects, with topics ranging from stability and control to system capacity planning and forecasting.
Altri titoli varianti:	Wind Power Integration into Power Systems
Titolo autorizzato:	Wind Power Integration into Power Systems: Stability and Control Aspects
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910557761903321
Lo trovi qui:	Univ. Federico II
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