基于改进点估计法的输电线路过负荷风险评估
发布时间:2020-08-03 15:09
【摘要】:针对分布式电源输出功率的随机性问题,提出一种基于改进点估计法的输电线路过负荷风险评估的方法。在传统2 m及2 m+1点估计法的基础上,根据各个输入量的影响因子来选择相应的权重,改善传统点估计法的计算精度,实现输电线路的过负荷风险评估。对含风光互补发电单元的IEEE 30节点系统中输电线路过负荷风险进行评估,分析结果表明所提方法具有计算成本低、预测精度比传统点估计法精度高的特点。
【图文】:
=0.2207,σ=0.0192μ=0.2210,σ=0.0190μ=0.2215,σ=0.018921-22μ=0.0477,σ=0.0043μ=0.0479,σ=0.0042μ=0.0481,σ=0.004123-24μ=0.0248,σ=0.0029μ=0.0249,σ=0.0029μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3电力自动化设备第37卷表1各线路的额定负荷潮流Table1Ratedpower-flowoftransmissionline线路l额定容量值线路l额定容量值2-50.561515-230.05273-40.431610-170.26316-280.324321-220.058212-160.051923-240.03189-100.3742图4线路3-4功率潮流的概率密度函数Fig.4Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图3基于IEEE30节点系统的风光互补发电系统Fig.3IEEE30-bussystemwithwind-solarcomplementaryelectricity-generatingsystem风电11257光照光伏18342861191213光照光伏214151617102729风电230181920212224232526
359-10μ=0.2957,σ=0.0266μ=0.2958,σ=0.0266μ=0.2960,σ=0.026515-23μ=0.0431,σ=0.0036μ=0.0432,σ=0.0036μ=0.0432,σ=0.003610-17μ=0.2212,σ=0.0190μ=0.2213,σ=0.0190μ=0.2215,σ=0.018921-22μ=0.0479,σ=0.0042μ=0.0481,σ=0.0041μ=0.0481,σ=0.004123-24μ=0.0250,σ=0.0028μ=0.0251,σ=0.0028μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3第4期雷加智,等:基于改进点估计法的输电线路过负荷风险评估图5线路3-4功率潮流的概率密度函数Fig.5Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图62种2m点估计法的误差分析Fig.6Erroranalysisfortraditionalandimproved2mpointestimationmethods0δ113579序号情况1情况2-0.005-0.010-0.015-0.020-0.025表5线路过负荷风险评估Table5Assessmentoftransmissionlineoverloadrisk12-50.060990.062560.0630523-40.115530.117130.1188936-280.091790.092010.09235412-160.032910.033410.0334159-100.018820.018980.01898615-230.039610.040330.04033710-170.083710.084500.08499821-220.052870.053950.05395923-240.040700.043880.04388总计1.924851.931011.93472序号线路l风险评估值情况1情况2情况3图72种2m+1点估计法的误差分析Fig.7Erroranalysisfortraditionalandimproved2m+1pointestimationmethods0δ213579序号情况1情况2-0.0005-0.0010-0.0015-
2215,σ=0.018921-22μ=0.0479,σ=0.0042μ=0.0481,σ=0.0041μ=0.0481,σ=0.004123-24μ=0.0250,σ=0.0028μ=0.0251,σ=0.0028μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3第4期雷加智,等:基于改进点估计法的输电线路过负荷风险评估图5线路3-4功率潮流的概率密度函数Fig.5Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图62种2m点估计法的误差分析Fig.6Erroranalysisfortraditionalandimproved2mpointestimationmethods0δ113579序号情况1情况2-0.005-0.010-0.015-0.020-0.025表5线路过负荷风险评估Table5Assessmentoftransmissionlineoverloadrisk12-50.060990.062560.0630523-40.115530.117130.1188936-280.091790.092010.09235412-160.032910.033410.0334159-100.018820.018980.01898615-230.039610.040330.04033710-170.083710.084500.08499821-220.052870.053950.05395923-240.040700.043880.04388总计1.924851.931011.93472序号线路l风险评估值情况1情况2情况3图72种2m+1点估计法的误差分析Fig.7Erroranalysisfortraditionalandimproved2m+1pointestimationmethods0δ213579序号情况1情况2-0.0005-0.0010-0.0015-0.0020-0.0025-0.0030-0.0035
本文编号:2779804
【图文】:
=0.2207,σ=0.0192μ=0.2210,σ=0.0190μ=0.2215,σ=0.018921-22μ=0.0477,σ=0.0043μ=0.0479,σ=0.0042μ=0.0481,σ=0.004123-24μ=0.0248,σ=0.0029μ=0.0249,σ=0.0029μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3电力自动化设备第37卷表1各线路的额定负荷潮流Table1Ratedpower-flowoftransmissionline线路l额定容量值线路l额定容量值2-50.561515-230.05273-40.431610-170.26316-280.324321-220.058212-160.051923-240.03189-100.3742图4线路3-4功率潮流的概率密度函数Fig.4Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图3基于IEEE30节点系统的风光互补发电系统Fig.3IEEE30-bussystemwithwind-solarcomplementaryelectricity-generatingsystem风电11257光照光伏18342861191213光照光伏214151617102729风电230181920212224232526
359-10μ=0.2957,σ=0.0266μ=0.2958,σ=0.0266μ=0.2960,σ=0.026515-23μ=0.0431,σ=0.0036μ=0.0432,σ=0.0036μ=0.0432,σ=0.003610-17μ=0.2212,σ=0.0190μ=0.2213,σ=0.0190μ=0.2215,σ=0.018921-22μ=0.0479,σ=0.0042μ=0.0481,σ=0.0041μ=0.0481,σ=0.004123-24μ=0.0250,σ=0.0028μ=0.0251,σ=0.0028μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3第4期雷加智,等:基于改进点估计法的输电线路过负荷风险评估图5线路3-4功率潮流的概率密度函数Fig.5Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图62种2m点估计法的误差分析Fig.6Erroranalysisfortraditionalandimproved2mpointestimationmethods0δ113579序号情况1情况2-0.005-0.010-0.015-0.020-0.025表5线路过负荷风险评估Table5Assessmentoftransmissionlineoverloadrisk12-50.060990.062560.0630523-40.115530.117130.1188936-280.091790.092010.09235412-160.032910.033410.0334159-100.018820.018980.01898615-230.039610.040330.04033710-170.083710.084500.08499821-220.052870.053950.05395923-240.040700.043880.04388总计1.924851.931011.93472序号线路l风险评估值情况1情况2情况3图72种2m+1点估计法的误差分析Fig.7Erroranalysisfortraditionalandimproved2m+1pointestimationmethods0δ213579序号情况1情况2-0.0005-0.0010-0.0015-
2215,σ=0.018921-22μ=0.0479,σ=0.0042μ=0.0481,σ=0.0041μ=0.0481,σ=0.004123-24μ=0.0250,σ=0.0028μ=0.0251,σ=0.0028μ=0.0251,σ=0.0028功率潮流点估计结果情况1情况2情况3第4期雷加智,等:基于改进点估计法的输电线路过负荷风险评估图5线路3-4功率潮流的概率密度函数Fig.5Power-flowprobabilitydensityfunctionofline3-414121086420概率密度函数0.200.250.300.350.400.450.500.55线路3-4实际潮流值情况3情况1情况2图62种2m点估计法的误差分析Fig.6Erroranalysisfortraditionalandimproved2mpointestimationmethods0δ113579序号情况1情况2-0.005-0.010-0.015-0.020-0.025表5线路过负荷风险评估Table5Assessmentoftransmissionlineoverloadrisk12-50.060990.062560.0630523-40.115530.117130.1188936-280.091790.092010.09235412-160.032910.033410.0334159-100.018820.018980.01898615-230.039610.040330.04033710-170.083710.084500.08499821-220.052870.053950.05395923-240.040700.043880.04388总计1.924851.931011.93472序号线路l风险评估值情况1情况2情况3图72种2m+1点估计法的误差分析Fig.7Erroranalysisfortraditionalandimproved2m+1pointestimationmethods0δ213579序号情况1情况2-0.0005-0.0010-0.0015-0.0020-0.0025-0.0030-0.0035
【相似文献】
相关期刊论文 前7条
1 何国盛;;配电线路过负荷监控装置的设计与应用[J];中国新技术新产品;2012年15期
2 赵国梁,井口杰,山城迪;一种考虑网络损耗及线路过负荷的火力发电机起停计划方法[J];电网技术;2002年05期
3 邓启威,朱守真,刘建政,王晓彬,施景元;输电系统线路过负荷控制[J];电力自动化设备;2002年07期
4 李战赠;姚波;陆伟青;;配电线路过负荷监控装置的设计与应用[J];电气技术;2010年11期
5 袁越;吴博文;李振杰;王伟胜;;基于多场景概率的含大型风电场的输电网柔性规划[J];电力自动化设备;2009年10期
6 杨媛媛;杨京燕;黄镇;;配电网风险评价体系及其应用[J];现代电力;2011年04期
7 ;[J];;年期
本文编号:2779804
本文链接:https://www.wllwen.com/kejilunwen/dianlidianqilunwen/2779804.html
