Transpiration cooling is an important means of thermal protection.
发汗冷却是热防护的重要手段。
Transpiration cooling control problem belongs to a kind of front problems.
发汗冷却控制问题属于前沿课题。
The factors that influence the effectiveness of transpiration cooling were also discussed.
通过分析多孔材料骨架温度的变化趋势,研究了影响发汗冷却效率的因素。
This paper represents a mathematical model of transpiration cooling control system with two-dimensional heating and surface ablating.
本文给出二维加热且具有表面烧蚀的发汗控制数学模型。
Heat transfer possibly results in the thermal wrinkling of transpiration cooling platelet of the liquid rocket engine (LRE) 's thrust chamber.
液体火箭发动机发汗冷却推力室的结构层板可能出现受热皱损。
The turbulent convection heat transfer of transpiration cooling in a horizontal rectangular channel was investigated experimentally and numerically.
本文对水平矩形槽道内湍流对流换热与发汗冷却进行了实验研究和数值模拟。
This paper describes the experimental investigation reducing the ablation of an electrode in the 14mw arc heater by use of the transpiration cooling.
本文介绍了在14MW电弧加热器系统上进行电弧放电烧蚀发汗效果的试验研究。
The developing background of variable domain transpiration cooling control theory, the mechanism of aerodynamics and its characteristics are analyzed.
对变域传热发汗控制理论的产生背景及其空气动力学机理和变域传热发汗理论的特点进行分析。
Numerical simulations of the transpiration cooling thruster with a four-section porous wall show that the design reduces of the required coolant flow by half.
对分四段结构喷管的数值模拟的结果表明,相比不分段而言分段结构可减少一半冷却剂流量。
Present research on cooling methods, the status of transpiration cooling and theoretical models of transpiration cooling technology in thermal protection system is reviewed.
综述了国内外航天热防护用冷却技术的分类、发汗冷却材料研究现状以及发汗冷却技术理论模型的研究进展。
Flow boiling in porous media widely exists in transpiration cooling, electric equipments cooling, heat pump for aviation, volcano and so on. Flow boiling in porous media is very complicated.
多孔介质中的沸腾现象常出现于发汗冷却、高温干燥、紧凑式换热器、电子器件冷却、航空用热泵及火山、地热水库中。
Flow boiling in porous media widely exists in transpiration cooling, electric equipments cooling, heat pump for aviation, volcano and so on. Flow boiling in porous media is very complicated.
多孔介质中的沸腾现象常出现于发汗冷却、高温干燥、紧凑式换热器、电子器件冷却、航空用热泵及火山、地热水库中。
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