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Evolution of operating reserve determination in wind power integration studies /

MARC Record from harvard_bibliographic_metadata

Record ID harvard_bibliographic_metadata/ab.bib.13.20150123.full.mrc:264587502:2363
Source harvard_bibliographic_metadata
Download Link /show-records/harvard_bibliographic_metadata/ab.bib.13.20150123.full.mrc:264587502:2363?format=raw

LEADER: 02363cam a2200373Ia 4500
001 013229903-8
005 20120608023226.0
006 m d f
008 110418s2011 coua obt f000 0 eng d
035 0 $aocn713030457
035 $a(FDLP)ocn713030457
040 $aSOE$cSOE$dGPO
074 $a0430-P-04 (online)
086 0 $aE 9.17:NREL/CP-5500-49100
245 00 $aEvolution of operating reserve determination in wind power integration studies$h[electronic resource] /$cErik Ela ... [et al.].
260 $a[Golden, CO] :$bNational Renewable Energy Laboratory,$c[2011]
300 $a1 online resource (8 p.) :$bcol. ill.
490 1 $aNREL/CP ;$v5500-49100
538 $aFull text available via Internet in .pdf format. Adobe Acrobat Reader required.
500 $aTitle from title screen (viewed April 18, 2011).
500 $a"March 2011."
500 $a"Presented at the 2010 IEEE Power & Energy Society General Meeting, Minneapolis, Minnesota, July 25-29, 2010."
520 3 $aThe growth of wind power as an electrical power generation resource has produced great benefits with reductions in emissions and the supply of zero cost fuel. It also has created challenges for the operation of power systems arising from the increased variability and uncertainty it has introduced. A number of studies have been performed over the past decade to analyze the operational impacts that can occur at high penetrations of wind. One of the most crucial impacts is the amount of incremental operating reserves required due to the variability and uncertainty of wind generation. This paper describes different assumptions and methods utilized to calculate the amount of different types of reserves carried, and how these methods have evolved as more studies have been performed.
504 $aIncludes bibliographical references (p. 8).
536 $bDE-AC36-08GO28308$gWE104221
650 0 $aWind power plants$xMathematical models.
650 0 $aInterconnected electric utility systems.
650 0 $aElectric power-plants$xLoad$xManagement.
700 1 $aEla, Erik.
710 2 $aNational Renewable Energy Laboratory (U.S.)
710 2 $aIEEE Power & Energy Society.$bGeneral Meeting$d(2010 :$cMinneapolis, Minn.)
830 0 $aConference paper (National Renewable Energy Laboratory (U.S.)) ;$v5500-49100.
988 $a20120608
906 $0OCLC