中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2012年
1期
38-46
,共9页
林卫星%文劲宇%艾小猛%程时杰%李伟仁
林衛星%文勁宇%艾小猛%程時傑%李偉仁
림위성%문경우%애소맹%정시걸%리위인
风电功率%风电波动%概率密度函数%带移位因子与伸缩系数的t分布%随机性
風電功率%風電波動%概率密度函數%帶移位因子與伸縮繫數的t分佈%隨機性
풍전공솔%풍전파동%개솔밀도함수%대이위인자여신축계수적t분포%수궤성
wind power%wind power variation%probability density function%t location-scale distribution%probability
波动性是风电功率的固有特性,如何定量地描述风电功率的波动性尚缺乏有效方法。基于大量实测数据的分析,发现可以采用带移位因子与伸缩系数的t分布(flocation-scale)描述风电功率波动特性的概率分布。分析表明:风电功率的min级分量约占风电场装机容量的2%~5%:多个风电场输出叠加在一起后可以有效减小min级分量的比例:风机类型对风电波动特性的影响很小,而风电场当前风电出力则对风电波动特性几乎无影响。带移位因子与伸缩系数的t分布还适合于描述风电场相邻时间间隔平均功率变化的概率分布,时间间隔加长后,由于风速相关性减弱,相邻时段平均功率的波动特性增强。
波動性是風電功率的固有特性,如何定量地描述風電功率的波動性尚缺乏有效方法。基于大量實測數據的分析,髮現可以採用帶移位因子與伸縮繫數的t分佈(flocation-scale)描述風電功率波動特性的概率分佈。分析錶明:風電功率的min級分量約佔風電場裝機容量的2%~5%:多箇風電場輸齣疊加在一起後可以有效減小min級分量的比例:風機類型對風電波動特性的影響很小,而風電場噹前風電齣力則對風電波動特性幾乎無影響。帶移位因子與伸縮繫數的t分佈還適閤于描述風電場相鄰時間間隔平均功率變化的概率分佈,時間間隔加長後,由于風速相關性減弱,相鄰時段平均功率的波動特性增彊。
파동성시풍전공솔적고유특성,여하정량지묘술풍전공솔적파동성상결핍유효방법。기우대량실측수거적분석,발현가이채용대이위인자여신축계수적t분포(flocation-scale)묘술풍전공솔파동특성적개솔분포。분석표명:풍전공솔적min급분량약점풍전장장궤용량적2%~5%:다개풍전장수출첩가재일기후가이유효감소min급분량적비례:풍궤류형대풍전파동특성적영향흔소,이풍전장당전풍전출력칙대풍전파동특성궤호무영향。대이위인자여신축계수적t분포환괄합우묘술풍전장상린시간간격평균공솔변화적개솔분포,시간간격가장후,유우풍속상관성감약,상린시단평균공솔적파동특성증강。
Variations is an intrinsic property of wind power, but few common methods are reported that quantificationally define the variations. Based on the field measurement, it's found that t location-scale distribution is suitable to identify the probability distribution of wind power variations. Analysis shows that the minute-scale wind power is about 2% to 5% of the installed capacity. Summation of the outputs from different wind farms regional apart could effectively decrease the percentage of minute-scale wind power. The types of wind farms have a little influence on the percentage of minute-scale wind power, and the influence of the present total output is negligible. The t location-scale distribution is also capable to describe the probability distribution of variations of average wind power of adjacent time intervals. As the length of average time interval increases, the variations increase due to the decrease of the correlation between wind velocities.