Assessment of risk-based capacity benefit factors associated with wind energy conversion systems

被引:48
作者
Billinton, R [1 ]
Chen, H [1 ]
机构
[1] Univ Saskatchewan, Dept Elect Engn, Coll Engn, Saskatoon, SK S7N 0W0, Canada
关键词
D O I
10.1109/59.709119
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A Wind Energy Conversion System (WECS) has a different impact on the load carry capability of a generating system than does a conventional energy conversion system. This is mainly due to the variation in wind velocity. Two risk-based capacity indices designated as Load Carrying Capacity Benefit Ratio (LCCBR) and Equivalent Capacity Rate (ECR) are introduced in this paper. These two indices can be used to indicate capacity benefit and credit of a WECS, and thus provide valuable information for energy policy makers in decision problems involving the selection and classification of wind sites. A midpoint sectionalized technique has been developed to calculate the Incremental Peak Load Carrying Capability (IPLCC) and to assess the LCCBR and ECR. The technique Is effective and usually takes only a few iterations to obtain the indices. Sequential Monte Carlo simulation is utilized to estimate the adequacy of a generating systems including WECS. A small reliability test system containing WECS is utilized to illustrate the proposed technique.
引用
收藏
页码:1191 / 1196
页数:6
相关论文
共 11 条
[1]  
Allan R. N., 1996, Reliability Evaluation of Power Systems, DOI DOI 10.1007/978-1-4615-7731-7
[2]  
BILLINGTON R, 1996, IEEE PES WINT M
[3]   Time-series models for reliability evaluation of power systems including wind energy [J].
Billinton, R ;
Chen, H ;
Ghajar, R .
MICROELECTRONICS AND RELIABILITY, 1996, 36 (09) :1253-1261
[4]   INCORPORATION OF WIND ENERGY-CONVERSION SYSTEMS IN CONVENTIONAL GENERATING CAPACITY ADEQUACY ASSESSMENT [J].
BILLINTON, R ;
CHOWDHURY, AA .
IEE PROCEEDINGS-C GENERATION TRANSMISSION AND DISTRIBUTION, 1992, 139 (01) :47-56
[5]   A RELIABILITY TEST SYSTEM FOR EDUCATIONAL PURPOSES - BASIC DATA [J].
BILLINTON, R ;
KUMAR, S ;
CHOWDHURY, N ;
CHU, K ;
DEBNATH, K ;
GOEL, L ;
KHAN, E ;
KOS, P ;
NOURBAKHSH, G ;
OTENGADJEI, J .
IEEE TRANSACTIONS ON POWER SYSTEMS, 1989, 4 (03) :1238-1244
[6]   A MONTE-CARLO SIMULATION METHOD FOR THE ECONOMIC-ASSESSMENT OF THE CONTRIBUTION OF WIND ENERGY TO POWER-SYSTEMS [J].
DESROCHERS, G ;
BLANCHARD, M ;
SUD, S .
IEEE TRANSACTIONS ON ENERGY CONVERSION, 1986, 1 (04) :50-56
[7]   DEVELOPMENT OF A NEW PROCEDURE FOR RELIABILITY MODELING OF WIND TURBINE GENERATORS [J].
GIORSETTO, P ;
UTSUROGI, KF .
IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1983, 102 (01) :134-143
[8]  
*IEEE TASK FORC MO, 1972, IEEE T POWER APPARAT, V91, P130
[9]   OPTIMUM WINDMILL-SITE MATCHING [J].
SALAMEH, ZM ;
SAFARI, I .
IEEE TRANSACTIONS ON ENERGY CONVERSION, 1992, 7 (04) :669-676
[10]   RELIABILITY MODELING OF GENERATION SYSTEMS INCLUDING UNCONVENTIONAL ENERGY-SOURCES [J].
SINGH, C ;
LAGOGONZALEZ, A .
IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1985, 104 (05) :1049-1056