中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
16期
4094-4101
,共8页
章雅纯%陈树勇%刘道伟%马世英%陈勇%郑超%马士聪
章雅純%陳樹勇%劉道偉%馬世英%陳勇%鄭超%馬士聰
장아순%진수용%류도위%마세영%진용%정초%마사총
静态稳定%评估判据%广义弹性系数%广域测量系统%弹性势能
靜態穩定%評估判據%廣義彈性繫數%廣域測量繫統%彈性勢能
정태은정%평고판거%엄의탄성계수%엄역측량계통%탄성세능
static stability%evaluation criterion%general elastic coefficient%wide-area measurement system (WAMS)%elasticity potential energy
直接利用广II量测信息实现电网静态稳定快速量化评估是提高大电网在线监控和预警能力的关键。竺炜教授借鉴运动力学空间中静态稳定的物理概念,首次将电力系统全映射到弹性力学空间,为基于响应的大电网在线稳定态势量化评估提供了新的视角。该文在此基础上,区别于常规的电网等效建模方法,±据映射弹性势能及实时量测信息,将电网等效成一条虚拟的“源网荷”弹性支路,并提出一种电网静态稳定性能快速量化评估判据,即广义弹性系数。在新英格兰10机39节点系统和某省级电网中的仿真结果验证了所提方法的可行性。该方法直接利用量测信息进行简单的数值计算,避免了各类等效参数辨识环节及不确定因素,具有较大的工程应用价值。
直接利用廣II量測信息實現電網靜態穩定快速量化評估是提高大電網在線鑑控和預警能力的關鍵。竺煒教授藉鑒運動力學空間中靜態穩定的物理概唸,首次將電力繫統全映射到彈性力學空間,為基于響應的大電網在線穩定態勢量化評估提供瞭新的視角。該文在此基礎上,區彆于常規的電網等效建模方法,±據映射彈性勢能及實時量測信息,將電網等效成一條虛擬的“源網荷”彈性支路,併提齣一種電網靜態穩定性能快速量化評估判據,即廣義彈性繫數。在新英格蘭10機39節點繫統和某省級電網中的倣真結果驗證瞭所提方法的可行性。該方法直接利用量測信息進行簡單的數值計算,避免瞭各類等效參數辨識環節及不確定因素,具有較大的工程應用價值。
직접이용엄II량측신식실현전망정태은정쾌속양화평고시제고대전망재선감공화예경능력적관건。축위교수차감운동역학공간중정태은정적물리개념,수차장전력계통전영사도탄성역학공간,위기우향응적대전망재선은정태세양화평고제공료신적시각。해문재차기출상,구별우상규적전망등효건모방법,±거영사탄성세능급실시량측신식,장전망등효성일조허의적“원망하”탄성지로,병제출일충전망정태은정성능쾌속양화평고판거,즉엄의탄성계수。재신영격란10궤39절점계통화모성급전망중적방진결과험증료소제방법적가행성。해방법직접이용량측신식진행간단적수치계산,피면료각류등효삼수변식배절급불학정인소,구유교대적공정응용개치。
It is the key to improve the online monitoring and early-warning of large grid that using wide-area measurement system (WAMS) to achieve rapid quantitative assessment of static grid. The whole power system was mapped to the elastic mechanics space by professor ZHU Wei reference from the physical concept of static stability in kinetics space, which provides a new perspective for the quantitative evaluation of large power grid online based on response. Different from the traditional power grid equivalent modeling method,the large power grid was projected onto an elastic dynamic field in this article,according to the real-time data of WAMS and elasticity potential energy. The large power grid was equivalent to an elastic branch with the media of a branch elastic potential energy. Thus,this paper presented a power system static stability fast quantitative performance evaluation criterion, namely the general elastic coefficient. The proposed method was verified to be feasible under the Case study on the 10-machine 39-bus New England test power system and a provincial power grid. This method directly uses the measured information of simple numerical calculation, to avoid all kinds of parameter identification link equivalent and uncertain factors, which has great engineering application value.