电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2015年
2期
67-73,99
,共8页
滕予非%宁联辉%李甘%王锡凡%路明
滕予非%寧聯輝%李甘%王錫凡%路明
등여비%저련휘%리감%왕석범%로명
机电暂态%交替迭代%电压波动%稳定特性%分频风电
機電暫態%交替迭代%電壓波動%穩定特性%分頻風電
궤전잠태%교체질대%전압파동%은정특성%분빈풍전
electromechanical transient%alternate iteration%voltage fluctuation%stable characteristics%fractional frequency wind power
对含分频风电的电力系统机电暂态计算方法以及暂态特性进行了分析。首先,建立了交交变频器的准稳态模型,该模型反映了暂态过程中变频器两侧的电压、功率关系。其次,提出了含分频风电的电力系统暂态稳定算法。该算法将交交变频器准稳态模型与低频、工频两侧的网络方程相连得到系统网络代数方程。同时,利用交替迭代法对系统微分—代数方程组进行求解。最后,对含分频风电的电力系统的暂态稳定特性进行了分析。分析结果表明,由于低频侧电抗仅为工频系统1/3左右,故障时低频风力发电机转速响应的阻尼高于同距离的工频系统。同时,当低频侧故障时交交变频器对工频侧发电机的振荡具有明显的抑制作用。
對含分頻風電的電力繫統機電暫態計算方法以及暫態特性進行瞭分析。首先,建立瞭交交變頻器的準穩態模型,該模型反映瞭暫態過程中變頻器兩側的電壓、功率關繫。其次,提齣瞭含分頻風電的電力繫統暫態穩定算法。該算法將交交變頻器準穩態模型與低頻、工頻兩側的網絡方程相連得到繫統網絡代數方程。同時,利用交替迭代法對繫統微分—代數方程組進行求解。最後,對含分頻風電的電力繫統的暫態穩定特性進行瞭分析。分析結果錶明,由于低頻側電抗僅為工頻繫統1/3左右,故障時低頻風力髮電機轉速響應的阻尼高于同距離的工頻繫統。同時,噹低頻側故障時交交變頻器對工頻側髮電機的振盪具有明顯的抑製作用。
대함분빈풍전적전력계통궤전잠태계산방법이급잠태특성진행료분석。수선,건립료교교변빈기적준은태모형,해모형반영료잠태과정중변빈기량측적전압、공솔관계。기차,제출료함분빈풍전적전력계통잠태은정산법。해산법장교교변빈기준은태모형여저빈、공빈량측적망락방정상련득도계통망락대수방정。동시,이용교체질대법대계통미분—대수방정조진행구해。최후,대함분빈풍전적전력계통적잠태은정특성진행료분석。분석결과표명,유우저빈측전항부위공빈계통1/3좌우,고장시저빈풍력발전궤전속향응적조니고우동거리적공빈계통。동시,당저빈측고장시교교변빈기대공빈측발전궤적진탕구유명현적억제작용。
The electromechanical transient characteristics of a power system with fractional frequency wind power system (FFWPS) are analyzed. Firstly, a quasi-steady state model of the cycloconverter is established, which describes the relationship of voltages,active power and reactive power between the two sides of the cycloconverter during the transient process.Secondly,the calculation method is proposed to analyze the transient stability of the power system with FFWPS.This method combines the quasi-state equations of the cycloconverter and the network equations on both sides. Then these simultaneous equations are solved with the alternating iterative method.Thirdly,the transient stability of the power with FFWPS is analyzed,the results show that the damping of the rotating speed of a faulted wind generator in the fractional frequency system is bigger than that in the industrial frequency system.Moreover,when a fault occurs at the low frequency side,the cycloconverter can effectively restrain the oscillation of the generators at the industrial frequency system.