辽宁工程技术大学学报(自然科学版)
遼寧工程技術大學學報(自然科學版)
료녕공정기술대학학보(자연과학판)
JOURNAL OF LIAONING TECHNICAL UNIVERSITY(NATURAL SCIENCE)
2013年
8期
1118-1124
,共7页
张建平%丁权飞%胡丹梅%王昊
張建平%丁權飛%鬍丹梅%王昊
장건평%정권비%호단매%왕호
DFIG%风电场%ESA%静态电压稳定性%静态稳定裕度%弱稳定区域%负荷裕度%失稳区
DFIG%風電場%ESA%靜態電壓穩定性%靜態穩定裕度%弱穩定區域%負荷裕度%失穩區
DFIG%풍전장%ESA%정태전압은정성%정태은정유도%약은정구역%부하유도%실은구
DFIG%wind farm%ESA%static voltage stability%static stability margin%weak stability region%load margin%instability mode
针对双馈式风电场接入电网影响原有电力系统静态电压稳定的问题。采用潮流方程雅可比矩阵的特征结构分析法(ESA),结合相关节点的参与程度和系统的静态电压稳定裕度,给出了正常负荷下的弱稳定区和极限负荷下的失稳区。风电场并网的简化模型在标准IEEE39节点测试系统进行仿真分析。研究结果表明:接入风电场后系统的静态稳定裕度降低,弱稳定区域扩大;风电场的接入使得系统的负荷裕度降低,但不影响失稳区和失稳模式;随着风电场有功出力的减小,风电场所在节点的参与因子逐渐增大,系统的静态稳定裕度逐渐减小,风电场所在节点逐渐成为影响系统电压稳定的关键节点。
針對雙饋式風電場接入電網影響原有電力繫統靜態電壓穩定的問題。採用潮流方程雅可比矩陣的特徵結構分析法(ESA),結閤相關節點的參與程度和繫統的靜態電壓穩定裕度,給齣瞭正常負荷下的弱穩定區和極限負荷下的失穩區。風電場併網的簡化模型在標準IEEE39節點測試繫統進行倣真分析。研究結果錶明:接入風電場後繫統的靜態穩定裕度降低,弱穩定區域擴大;風電場的接入使得繫統的負荷裕度降低,但不影響失穩區和失穩模式;隨著風電場有功齣力的減小,風電場所在節點的參與因子逐漸增大,繫統的靜態穩定裕度逐漸減小,風電場所在節點逐漸成為影響繫統電壓穩定的關鍵節點。
침대쌍궤식풍전장접입전망영향원유전력계통정태전압은정적문제。채용조류방정아가비구진적특정결구분석법(ESA),결합상관절점적삼여정도화계통적정태전압은정유도,급출료정상부하하적약은정구화겁한부하하적실은구。풍전장병망적간화모형재표준IEEE39절점측시계통진행방진분석。연구결과표명:접입풍전장후계통적정태은정유도강저,약은정구역확대;풍전장적접입사득계통적부하유도강저,단불영향실은구화실은모식;수착풍전장유공출력적감소,풍전장소재절점적삼여인자축점증대,계통적정태은정유도축점감소,풍전장소재절점축점성위영향계통전압은정적관건절점。
For the impact of integration of DFIG based wind farm on the static voltage stability of power systems, eigenvalue structure analysis (ESA) of Jacobian matrix is employed, and weak stability region under normal load and the instability region under limit load are provided by combining with the participation information of relative nodes and static stability margin of system. The simplified model of wind farm was applied for simulation and analysis in the standard IEEE test system with 10 machines and 39 nodes. The result of study shows that the integration of wind farm reduces the static stability margin and extends the weak stability region; the integration of wind farm decreases the system’s load margin, but it has no effects on the instability region and instability mode. Furthermore, with the output active power of wind farm decreasing, the participation factors of wind farm node increases, the static stability margin decreases, and wind farm node becomes a key node which impacts the system’s static voltage stability.
