Heat-transfer rates are an extremely important consideration in the design of hypersonic vehicles such as atmospheric reentry vehicles. This paper describes the development of a data reduction methodology to evaluate heat-transfer rates using global surface temperature measurements on wind tunnel models at the Arnold Engineering Development Center (AEDC) White Oak's Hypervelocity Wind Tunnel 9. As a part of this development effort, a scale model of the NASA Crew Exploration Vehicle was painted with temperature-sensitive paint (TSP), and multiple sequences of high-resolution images were acquired during a five-run test program. The calculation of heat-transfer rates from TSP data acquired in Tunnel 9 is challenging because of high Reynolds number and dynamic pressure environments and the desire to use standard stainless steel wind tunnel models that were originally designed for force and moment testing. The authors developed an approach to reduce TSP data into convective heat flux while taking into consideration the challenges listed above. A preliminary comparison of the heat flux value calculated using the TSP surface temperature data with the value calculated using the standard thermocouple data is reported.
展开▼
机译:传热速率是在高效车辆(如大气再入车辆)设计中非常重要的考虑因素。本文介绍了数据减少方法的发展,以评估使用全局表面温度测量的传热速率在Arnold Engineering Development Center(AEDC)白色橡木的超细风洞9中的风洞模型。作为这一发展的一部分, NASA船员勘探车的比例模型用温度敏感的涂料(TSP)绘制,并且在五次测试程序期间获得了多个高分辨率图像的序列。从隧道9中获取的TSP数据的传热速率的计算是具有挑战性的,因为高雷诺数和动态压力环境以及使用最初设计用于力和力矩测试的标准不锈钢风洞模型的愿望。作者开发了一种方法,将TSP数据降低到对流热通量,同时考虑到上面列出的挑战。报道了使用具有使用标准热电偶数据计算的TSP表面温度数据计算的热通量值的初步比较。
展开▼
