000			02081cam a22003378i 4500
001			23621679
005			20250717102750.0
008			240327t20242024nju 001 0 eng c
010			_a 2024007491
020			_a9781394199501 _q(hardback)
040			_aMdU/DLC _beng
041			_aeng
042			_apcc
082	0	0	_a621.042 _bK61 _c2024
100	1		_aKirschen, Daniel Sadi
245	1	0	_aPower systems : _bfundamental concepts and the transition to sustainability / _cDaniel S. Kirschen.
250			_afirst edition
260			_aHaboken, USA: _bWiley, _c2024
300			_axix, 316 p. : _bil. ; _c26 cm.
336			_atext
337			_aunmediated
500			_aIncludes index.
520			_a"Electricity provides a clean, efficient, versatile, and economical way to deliver energy. Efficient generators have been designed to convert other forms of energy into electrical energy. Transmission lines carry large amounts of energy over long distances. Electric motors are efficient and make possible precise motion control. Electricity is also the only way to power electronic devices. However, there is one drawback to using electricity as an energy vector: storing significant amounts of energy in electrical form is not practical. Delivering significant amounts of electrical energy must therefore take place as a continuous process. The rate at which electrical energy flows (i.e., power) is the fundamental concept. Generating electric power from primary energy sources, transmitting it over long distances and converting it into another form of power for a variety of end uses on an uninterrupted basis requires a set of devices working in a coordinated fashion. This is what we call a power system"--
650	1	7	_aENERGIA ELECTRICA _2LEMB _91352 _xSISTEMAS
650		0	_aINGENIERIA ELECTRICA _91284
653			_aENERGIAS RENOVABLES
776	0	8	_iOnline version: _aKirschen, Daniel Sadi. _tPower systems _dHoboken, NJ : Wiley, 2024 _z9781394199518 _w(DLC) 2024007492
942			_2ddc _b2025-07-14 _cL-3
999			_c1121689 _d1121689