为适应高压直流输电的广泛应用,调度中心状态估计软件迫切需要进行相应修改。同时,特高压直流双阀组换流极的出现,也对状态估计直流建模提出了新的要求。针对±800 k V特高压直流输电,提出了一套适应换流极双阀组特点的直流输电量...为适应高压直流输电的广泛应用,调度中心状态估计软件迫切需要进行相应修改。同时,特高压直流双阀组换流极的出现,也对状态估计直流建模提出了新的要求。针对±800 k V特高压直流输电,提出了一套适应换流极双阀组特点的直流输电量测模型,该模型能同时兼容单阀组运行方式。为确保状态估计功能的平稳过渡,采用交替迭代方法,通过对现有成熟的状态估计软件进行较小修改,实现了交直流混合状态估计。指出工程实际应用中的若干技术问题,包括:软件总体流程的设计、换流损耗的考虑、直流运行方式的修正以及特殊量测的转换,并提出了相应的解决措施。开发的交直流混合状态估计软件已在南网总调投入正式运行,实际应用表明其精度、效率以及收敛性均满足实际工程现场要求。展开更多
This paper summarizes the results of the authors' 4 year experimental studies on the secondary flow losses in turbine cascades.cascade wind tunnel experiments were carried out concerning the influence of aspect ra...This paper summarizes the results of the authors' 4 year experimental studies on the secondary flow losses in turbine cascades.cascade wind tunnel experiments were carried out concerning the influence of aspect rations,incidence,turning angles and outer endwall divergent angles in order to unveil the evolution mechanism of secondary flow losses in turbine cascades without end clearance.Some methods for controlling the secondary flows are investigated including the blade leaning,blade cambering,endwall convergence and leading edge extension at two ends of the blade.展开更多
文摘为适应高压直流输电的广泛应用,调度中心状态估计软件迫切需要进行相应修改。同时,特高压直流双阀组换流极的出现,也对状态估计直流建模提出了新的要求。针对±800 k V特高压直流输电,提出了一套适应换流极双阀组特点的直流输电量测模型,该模型能同时兼容单阀组运行方式。为确保状态估计功能的平稳过渡,采用交替迭代方法,通过对现有成熟的状态估计软件进行较小修改,实现了交直流混合状态估计。指出工程实际应用中的若干技术问题,包括:软件总体流程的设计、换流损耗的考虑、直流运行方式的修正以及特殊量测的转换,并提出了相应的解决措施。开发的交直流混合状态估计软件已在南网总调投入正式运行,实际应用表明其精度、效率以及收敛性均满足实际工程现场要求。
文摘This paper summarizes the results of the authors' 4 year experimental studies on the secondary flow losses in turbine cascades.cascade wind tunnel experiments were carried out concerning the influence of aspect rations,incidence,turning angles and outer endwall divergent angles in order to unveil the evolution mechanism of secondary flow losses in turbine cascades without end clearance.Some methods for controlling the secondary flows are investigated including the blade leaning,blade cambering,endwall convergence and leading edge extension at two ends of the blade.