电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
11期
111-116
,共6页
张项安%谭骞%刘星%周苏荃%冯伟明
張項安%譚鶱%劉星%週囌荃%馮偉明
장항안%담건%류성%주소전%풍위명
智能配电网%网络保护%差动保护%广义基尔霍夫定律
智能配電網%網絡保護%差動保護%廣義基爾霍伕定律
지능배전망%망락보호%차동보호%엄의기이곽부정률
intelligent distribution network%network protection%differential protection%generalized Kirchhoff's law
面对配电网供电需求的增大、连接复杂度的增高以及可再生能源接入等问题,研究和发展智能配电网保护控制成为电力系统发展的必然选择和趋势.提出基于广义节点的配电网集中式差动保护方法,根据电网实时结构和测量可用性变化情况,应用广义节点的概念,确定差动保护的最小差动区间,即一个由保护终端构成的、封闭的合围若干电气元件的最小集合.基于广义基尔霍夫定律建立了数学模型,给出了计算方法,通过算例分析验证了该算法的可行性,可以解决分布式电源接入以及出现部分环网情况下配电网的保护问题.
麵對配電網供電需求的增大、連接複雜度的增高以及可再生能源接入等問題,研究和髮展智能配電網保護控製成為電力繫統髮展的必然選擇和趨勢.提齣基于廣義節點的配電網集中式差動保護方法,根據電網實時結構和測量可用性變化情況,應用廣義節點的概唸,確定差動保護的最小差動區間,即一箇由保護終耑構成的、封閉的閤圍若榦電氣元件的最小集閤.基于廣義基爾霍伕定律建立瞭數學模型,給齣瞭計算方法,通過算例分析驗證瞭該算法的可行性,可以解決分佈式電源接入以及齣現部分環網情況下配電網的保護問題.
면대배전망공전수구적증대、련접복잡도적증고이급가재생능원접입등문제,연구화발전지능배전망보호공제성위전력계통발전적필연선택화추세.제출기우엄의절점적배전망집중식차동보호방법,근거전망실시결구화측량가용성변화정황,응용엄의절점적개념,학정차동보호적최소차동구간,즉일개유보호종단구성적、봉폐적합위약간전기원건적최소집합.기우엄의기이곽부정률건립료수학모형,급출료계산방법,통과산례분석험증료해산법적가행성,가이해결분포식전원접입이급출현부분배망정황하배전망적보호문제.
The research and development of protection control in intelligent distribution network become the inevitable outcome and the development trend of electric power system with the increase of demand in power supply demand, increased strength of connection complexity and access of renewable energy access. This paper puts forward the method of distribution network centralized differential protection based on the concept of generalized node in distribution network. It applies the concept of generalized node to determine the minimum differential interval of differential protection, namely the minimum set of electrical components composed by the protection terminal and being in closed and encircled status, according to the power grid structure and real-time measurement available. This paper establishes the mathematical model based on the generalized Kirchhoff's law , and gives the calculation method. Numerical results of calculating examples show that the proposed algorithm is feasible and the method can solve the problems of DG access and the protection of the distribution network included the ring network circumstances. This work is supported by National Natural Science Foundation of China (No. 50977017).