航天器舷窗区域的热控设计和理论分析

结合舷窗的热设计原则,提出舷窗区域的热控设计方案。其中,重点对通过热管技术和高导热材料技术来实现等温化进行了说明,并分析了舷窗法兰框在不同传热方向上的等效导热系数。最后,对航天器舷窗区域在轨飞行的典型传热变化过程建立数学模型,并给出其简化的理论解。     

超临界RP-3管内换热特性实验

实验研究了超临界RP-3管内换热特性。实验段为2100mm长、外径2.2mm,内径1.8mm不锈钢管(材质:1Cr18Ni9Ti)。RP-3在5MPa压力下流经该实验管,采用近似等热流加热方式将其从127℃加热至427℃。通过测量0min,20min,30min,45min和60min时管外壁和流体温度得到管内对流换热系数hin沿流向分布、结焦对管内传热系数Kin影响。研究结果表明:在远离临界点的亚临界区域,hin随着RP-3温度上升逐渐增大;在近临界区管内对流换热系数迅速增加;而进入超临界区域后,hin保持在1.8×104W/(m·℃)附近;结焦对管内传热影响显著,Kin随结焦增多逐渐降低,而降幅逐渐减小。     

高精度固体推进剂爆热测试系统

为准确测量固体推进剂储存期间爆热值的变化,研究了高精度的爆热测试设备。针对影响爆热测试的主要因素,在测试系统硬件设计中采取了降低热量损失的多种措施,并采用了悬浮式光电隔离技术;在系统软件设计中则采用了数字滤波技术,建立了新的热量散失校正数学模型,并对影响测试精度的因素进行在线实时补偿。对标准物质的热值测试表明,系统测试相对误差小于０．１％,实现了推进剂爆热的高精度测试。     

Heat transfer behaviors of some supercritical fluids:A review

Supercritical fluids(e.g., hydrocarbon fuels, water, carbon dioxide, and organic working medium, etc) have been recognized as working media to improve thermal efficiencies in power cycles and energy conversion, and have been used or selected as the working fluids in engineering fields such as aerospace, nuclear power, solar energy, refrigeration, geothermal energy, chemical technology, and so on. To better understand the interesting characteristic or abnormal behaviors of supercritical fluids, m...     

一种热平衡等温机制的新型热防护及相关技术

给出了一种适用于高超声速飞行器热防护的新概念——疏导式热防护,其基本理论是利用热平衡等温机制,使防热层趋于一等温体,实现热负载平衡。针对这一概念,进行了较为系统的研究,包括原理、分析方法、实现疏导式热防护的关键技术。研究结果表明,疏导式热防护技术可有效地减少高热流区的温度和热应力,是一种有效的非烧蚀热防护技术。     

温敏漆技术及其在边界层转捩测量中的应用

A temperature sensitive paint (TSP) technique is developed for the request of boundary layer transition measurement, and a test of hypersonic boundary layer measurement of a flat plate is done in CARDC 0.6m shock tunnel. By use of the TSP technique, the measurement of the hypersonic boundary layer transition of slab has been done in the shock tunnel. The test nominal Mach numbers are 8 and 10, the unit Reynolds numbers are 2.45×10 7/m and 4.48× 10 6/m respectively, and the yaw angle is 20°. The data of heat transfer and transition position obtained by the TSP and measurement results of the thin film heat transfer sensor match well. The results illustrate that the TSP technique has the ability to measure the hypersonic boundary layer transition of simple model qualitatively and quantitatively in shock tunnel.     

载人飞船密封舱漏热问题研究

密封舱漏热是载人飞船热控系统设计中必须考虑的一个关键因素,是影响飞船热平衡和舱内温度的一项重要参数。建立了求解密封舱漏热的热物理模型,分析了各种参数对密封舱漏热的影响。结果表明：（1） 在一定温度范围内,密封舱漏热与舱内空气温度近似呈线性关系;（2） 返回舱漏热高于轨道舱,主要原因是导热热阻的基数偏小;（3） 漏热随外热流增大而减小,返回舱漏热波动较大,调节其热控涂层的α_S和ε_h值将导致返回舱漏热和漏热波动出现相反变化,为同时减小漏热和漏热波动,推荐采用较低α_S和ε_h 值的热控涂层;（4） 返回舱漏热受舱内壁对流换热系数影响较大,特别在2W/(m^2·K)附近。
     

一种新的烧蚀热响应算法在质量估算中的应用

针对预测飞行器再入过程中气动热流引发的烧蚀热响应导致热防护罩表层材料质量损耗的问题,研究了热防护罩的几何模型和烧蚀质量估算的方法,通过建立三自由度再入轨迹动力学方程,应用修正的牛顿流体理论计算气动系数,以及Detra-Kemp-Riddell和Tauber-Sutton理论计算驻点热流密度和热辐射,利用一维非线性热传导方程模拟了碳化材料的烧蚀过程,提出了基于Newton-Raphson和TDMA的烧蚀热响应算法估计飞行器热防护罩质量损耗的方法。通过分析,实现了再入全过程热防护材料烧蚀深度连续动态变化的预测,能够有效替代热平衡积分法,估算的烧蚀质量为优化热防护罩的几何模型和再入轨迹提供了参考依据。     

The influence of inlet swirl intensity and hot-streak on aerodynamics and thermal characteristics of a high pressure turbine vane

In modern gas turbines, the High Pressure Turbine (HPT) is exposed to an extreme thermal environment due to the burned gases leaving the combustor. The burned gases are characterized by flow and temperature distortions that effect the aerodynamics and heat transfer of the turbine. The purpose of this paper is to investigate numerically the effect of the intensity of the swirling flow combined with the temperature non-uniformity “Hot-Streak” (H-S) on the aerothermal performances of a HPT Nozzle Guide Vane (NGV). The investigations are conducted on the solid untwisted NGV annular cascade developed in NASA Lewis Research Center. Four swirl intensities (|S_n| = 0, 0.1, 0.25 and 0.5), two swirl orientations (positive and negative) and two hot-streaks (rounded and radial) at the NGV inlet are considered. The simulations are done by solving the Reynolds Averaged Navier-Stokes (RANS) equations using ANSYS-CFX software. The results show that the H-S with swirl undergoes twisting following the orientation of the swirl. The H-S twist is aggressive under positive swirl compared to the negative swirl case. The inlet swirl generates a new secondary flow structure, so called Swirl Vortex (SV), which induces more aerodynamic losses. The aerodynamic efficiency under negative swirl found to be higher than that under positive swirl. The maximum temperature on the vane surface is controlled by the radial transport of the SV towards the endwalls.     

星载大型平板缝隙天线结构设计及热变形分析

以空间应用需求日益广泛的大型平板缝隙天线为研究对象, 介绍了其结构组成. 为减小天线热变形, 对天线外侧4个安装角的连接方式做了改进设计, 并在极高温和极低温两种工况下进行热变形分析, 得到改进前后两个方案的变形结果. 在极高温工况下, 天线阵面Y向热变形均方根值从改进前的0.52 mm减小到0.3 mm; 在极低温工况下, 天线阵面热变形均方根值从改进前的0.35 mm减小到0.1 mm. 结果表明改进后的方案满足设计要求, 从而确保了天线在轨电性能的指标.