弯曲段壁面冲击发散冷却结构流量系数与冷却效率的实验

为了研究回流燃烧室弯曲段采用冲击发散冷却结构时的流量系数和冷却效率，设计了多种不同几何尺寸的实验件模型，分别对其流量系数和冷却效率进行了实验研究，得出如下结论：①弯曲段冲击发散冷却结构的流量系数较小，一般不会超过0．7．发散孔倾角为40°的流量系数要小于倾角为20°和30°的流量系数，流量系数随着发散孔纵向间距比的增大而减小．②弯曲段冲击发散冷却结构的冷却效率均随着吹风比的增大而增大，其冷却效率要明显高于直板冲击发散冷却结构，且这种差异随着吹风比的增大而逐渐减弱．

Experimental study of discharge coefficient and cooling effectiveness for impingement effusion cooling in curved section

In order to experimentally study the discharge coefficient and cooling effectiveness of impingement effusion cooling in curved section of combustion chamber,several test pieces with different geometrical dimensions were designed.The research results from experimental study show that: (1) The discharge coefficient of impingement effusion dimension in curved section is less than 0.7.The discharge coefficient of effusion hole angle 40° is larger than the discharge coefficient of effusion hole angle 30° and 20°,and the spacing between effusion holes has a great influence on the discharge coefficient. (2) The cooling effectiveness of impingement effusion in curved section is increased with the increase of blowing ration.And there is a large difference for the cooling effectiveness of impingement effusion between curved and flat sections,and the difference is decreased with the increase of blowing ratio.