Experimental study of curvature effects on jet impingement heat transfer on concave surfaces

Experimental study of the local and average heat transfer characteristics of a single round jet impinging on the concave surfaces was conducted in this work to gain in-depth knowledge of the curvature effects. The experiments were conducted by employing a piccolo tube with one sin-gle jet hole over a wide range of parameters: jet Reynolds number from 27000 to 130000, relative nozzle to surface distance from 3.3 to 30, and relative surface curvature from 0.005 to 0.030. Exper-imental results indicate that the surface curvature has opposite effects on heat transfer characteris-tics. On one hand, an increase of relative nozzle to surface distance (increasing jet diameter in fact) enhances the average heat transfer around the surface for the same curved surface. On the other hand, the average Nusselt number decreases as relative nozzle to surface distance increases for a fixed jet diameter. Finally, experimental data-based correlations of the average Nusselt number over the curved surface were obtained with consideration of surface curvature effect. This work con-tributes to a better understanding of the curvature effects on heat transfer of a round jet impinge-ment on concave surfaces, which is of high importance to the design of the aircraft anti-icing system.     

航空轴承钢的发展及热处理技术

随着航空航天技术的发展,轴承钢的种类和承温能力逐渐提高。而轴承钢的热处理技术对轴承钢的服役寿命及轴承性能的发挥起着关键性的作用,我国航空航天轴承的热处理技术一直处于发展阶段,与国外轴承钢的热处理技术相比仍有一定的上升空间。搜集国内外轴承钢相关的热处理文献,总结了国内外航空航天轴承钢及热处理技术的发展。主要论述了GCr15、8Cr4Mo4V、G13Cr4Mo4Ni4V等轴承钢的热处理技术,介绍了GCr15轴承钢的马氏体等温淬火、贝氏体等温淬火、马氏体+贝氏体混合等温淬火组织,详细介绍了国外M50轴承钢的热处理工艺方法、工艺参数及获得的热处理组织。     

Damage localization effects of the regeneratively-cooled thrust chamber wall in LOX/methane rocket engines

To investigate the damage localization effects of the thrust chamber wall caused by combustions in LOX/methane rocket engines, a fluid-structural coupling computational methodology with a multi-channel model is developed to obtain 3-demensioanl thermal and structural responses. Heat and mechanical loads are calculated by a validated finite volume fluid-thermal coupling numerical method considering non-premixed combustion processes of propellants. The methodology is subsequently performed on an LOX/methane thrust chamber under cyclic operation. Results show that the heat loads of the thrust chamber wall are apparently non-uniform in the circumferential direction. There are noticeable disparities between different cooling channels in terms of temperature and strain distributions at the end of the hot run phase, which in turn leads to different temperature ranges, strain ranges, and residual strains during one cycle. With the work cycle proceeding, the circumferential localization effect of the residual strain would be significantly enhanced. A post-processing damage analysis reveals that the low-cycle fatigue damage accumulated in each cycle is almost unchanged, while the quasi static damage accumulated in a considered cycle declines until stabilized after several cycles. The maximum discrepancy of the predicted lives between different cooling channels is about 30%.     

Thermal behavior of an isolator with mode transition inducing back-pressure of a dual-mode scramjet

Combustion mode transition is a valuable and challenging research area in dual-mode scramjet engines. The thermal behavior of an isolator with mode transition inducing back-pressure is investigated by direct-connect dual-mode scramjet experiments and theoretical analysis. Combustion experiments are conducted under the incoming airflow conditions of total temperature 1270 K and Mach 2. A small increment of the fuel equivalence ratio is scheduled to trigger mode transition. Correspondingly, the variation of the coolant flow rate is very small. Based on the mea-sured wall pressures, the heat-transfer model can quantify the thermal state variation of the engine with active cooling. Compared with the combustor, mode transition has a greater effect on the iso-lator thermal behavior, and it significantly changes the isolator heat-flux and wall temperature. To further study the isolator thermal behavior from flight Mach 4 to Mach 7, a theoretical analysis is carried out. Around the critical point of combustion mode transition, sudden changes of the isola-tor flowfield and thermal state are discussed.     

超燃发动机激波增强混合的数值研究

采用数值方法求解三维可压ＮＳ方程,模拟了斜激波增强超声速氢／空气混合的过程。对不同强度 激波混合增强的效率进行了比较。计算表明利用斜激波增强混合是一种行之有效的方法。     

多斜孔壁冷却方式小孔内对流换热研究

研究了多斜孔壁冷却方式小孔内对流的局部和平均换热情况。研究方法是相似理论指导下的实验研究。研究结果表明:小孔进口区的换热增强幅度较大,并且在进口区不同的位置上增幅存在差别;孔内雷诺数对换热增强幅度影响较大,孔内雷诺数越高,换热增强越大。      

叶片前缘气膜冷却换热的实验研究

对叶片前缘多排圆柱形孔的气膜冷却换热进行了实验研究。测出了不发生主流侵入腔室的最小平均吹风比、孔排区及其下游的局部换热系数,并研究了主流雷诺数及平均吹风比对局部换热系数比的影响。实验参数范围：主流雷诺数Ｒｅ＝４２０００～１２７０００,平均吹风比Ｍ＝０．８～２．０,测量分８个工况进行。     

非定常尾迹对涡轮叶片换热影响的数值模拟

通过引入非定常尾迹诱导过渡的时间平均间歇因子的概念,提出常规过渡的起始点位置和尾迹诱导过渡起始点位置的算法,实现了对非定常尾迹影响下涡轮叶片上时间平均换热的数值模拟。结果显示,无论在叶片吸力面还是压力面,计算与实验符合均很好。     

吸热型碳氢燃料的量热研究

对不同结构组成的吸热型碳氢燃料在不同工作温度下的热沉进行了测定和研究,并在此基础上,研制开发了一种性能较好的ＮＪ－１５０碳氢燃料,并测定了其有关的理化性质和热沉,实验结果表明ＮＪ－１５０是一种很有发展前途的吸热型碳氢燃料。     

刷式封严流动和换热的数值模拟

对刷式封严的流动和换热进行了数值模拟。计算中对结构复杂的刷丝部分采用多孔介质处理,用Ｄａｒｃｙ定律取代动量方程,能量方程采用改进形式,而对其它部分采用简单的矩形网格进行完全Ｎ－Ｓ求解。Ｄａｒｃｙ定律的扩散系数由所提出的实验方法确定。典型的计算结果显示所提方法是正确、合理而可行的。