摘要
为了诊断可逆转轮的三维流场,引入局部涡动力学诊断方法,从叶片对流体做功能力分析过流部件的设计状况。通过对沿流线的截面上总压流的分解,找到对总压流产生不良影响的动力学根源和位置。根据诊断结果,通过在设计中改变叶片的环量分布,对可逆转轮进行了改进,提高了转轮的效率和气蚀性能。可逆转轮数值实验结果表明:在水泵工况,改进前后的转轮效率分别为91.3%和92.1%;在水轮机工况,改进前后的转轮效率分别为91.9%和92.4%;改进后气蚀因数降低了0.012。
The bidirectional flow in a pump-turbine runner was analyzed using a vorticity dynamics based method. In this method, the runner design is related to the work applied by the blade. The integral of the total pressure work normal to the streamline was analyzed to understand the variations of the pressure work with hlade position and the effect of blade position on the total pressure work. The flow diagnosis results are used to modify the distribution of circulation to improve the efficiency and cavitation performance of the pump-turbine runner. Numerical experiments show that for the pump working condition, the runner efficiency is 91.3% and 92. 1% hefore and after the improvement, while for the turbine working Condition, the runner efficiency is 91.9% and 92.4% before and after the improvement and that the cavitation coefficient is reduced hy 0. 012 after the modification.
出处
《清华大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2007年第5期686-690,共5页
Journal of Tsinghua University(Science and Technology)
基金
国家自然科学基金资助项目(50479006)
中国博士后科学基金资助项目(2004035325)
