扭曲叶片对涡轮气动性能影响的数值分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jianguo Jin, Zhanzhou Wang, Li-hua Cao
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引用次数: 2

摘要

随着火电机组容量的逐渐增大,汽轮机的进口蒸汽参数和流量也逐渐增大,造成相当大的二次流损失。因此,研究水轮机级内二次流损失的原因及分布,对有效提高水轮机级内效率具有重要意义。以某涡轮高压级动叶为研究对象,采用k ω sst模型、SIMPLEC算法,数值模拟了正弯扭叶叶尖间隙泄漏涡的形成、发展过程及其对叶栅通道二次流的影响。结果表明:与常规扭叶相比,正弯扭叶吸力面附近蒸汽流动形成的泄漏涡的影响范围和对通道主流的扰动变小,叶尖间隙的增大削弱了正弯扭叶吸力面“C”型压力梯度,增加了叶片两端边界层厚度和叶端损失;
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Numerical Analysis on the Influence of the Twisted Blade on the Aerodynamic Performance of Turbine
Abstract With the gradual increase of the thermal power unit capacity, the inlet steam parameters and flow of the turbine also increase gradually, which causes considerable secondary flow loss. Therefore, studying the causes and distribution of secondary flow loss within the level is of great significance to effectively improve the stage internal efficiency of turbine. Take high-pressure stage moving blade of a turbine as the research object, and adopt the k-ωSST model, the SIMPLEC algorithm to numerically simulate the formation and development process of leakage vortex between the tip clearance of the positive bending twisted blade and its effect on the secondary flow of cascade passage. Results show that relative to the conventional twisted blade, the scope of influence of leakage vortex which the steam flow formed near the suction surface of positive bending twisted blade and the disturbance to passage mainstream become smaller, and the increase of tip clearance has weakened the „C“ type pressure gradient of suction surface of the positive bending twisted blade, increased the thickness of the boundary layer at both ends of blades and the loss of the blade end.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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