马赫数
阻力
机械
超音速
湍流
流量(数学)
阻力系数
阻力发散马赫数
热的
材料科学
计算流体力学
阻塞流
鼻腔
光学
物理
热力学
地质学
古生物学
作者
F. Pish,Tran Dinh Manh,M. Barzegar Gerdroodbary,Nguyễn Đăng Nam,Rasoul Moradi,Houman Babazadeh
出处
期刊:International Journal of Modern Physics C
[World Scientific]
日期:2020-02-19
卷期号:31 (06): 2050079-2050079
被引量:87
标识
DOI:10.1142/s0129183120500795
摘要
Heat and drag reduction on the nose cone is a significant issue for increasing the speed of the supersonic vehicles. In this paper, computational fluid dynamic method is applied to investigate the thermal and drag coefficient on the sharp nose cone with different cavity shapes. In order to simulate our model, the CFD method with SST turbulence model is applied to study the flow feature and temperature distribution in the vicinity of the nose body. The effect of depth and length of the cavity on the thermal characteristic of the nose cone is comprehensively investigated. In addition, the influence of the number of the cavity in the thermal performance of the main body is studied. According to our results, increasing the length of the cavity highly efficient for the reduction of the drag at Mach = 3. As the Mach number is increased to 3, the number of the cavity becomes a significant role and it is observed that case 9 with four cavities is more efficient. Obtained results also show that increasing the cavity depth declines the temperature on the main body. Our findings confirm that the main source of the expansion is the edge of the cavity.
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