发动机进气道短舱前缘结冰三维模拟研究

为计算发动机进气道短舱前缘的结冰冰形,在Messinger结冰热力学模型的基础上发展了一套纯三维的表面溢流水流动结冰模型。考虑空气摩擦力为表面溢流水流动的主要驱动力,用空气对进气道表面的剪切力来确定溢流水的流动方向及流量分配。为求解溢流水结冰模型,发展了一套重复查找表面控制体状态的方法,能够快速完成整个三维表面的计算。用该方法对某三维发动机进气道进行计算,得到了三维结冰冰形,并将计算结果与FENSAP-ICE计算结果进行了对比,结果显示两者的冰形轮廓基本一致,仅在冰角处存在差异,表明本文三维发动机结冰计算模型与计算方法是有效的,其计算精度与FENSAP-ICE结果相当。     

冰风洞试验中水滴的传热传质计算研究

进行冰风洞试验时,出口过冷水滴的参数往往使用风洞来流空气参数进行计算,忽略了真实情况下水滴与空气的传热传质过程,致使试验数据产生偏差,并影响测试结果的可靠性.通过对冰风洞试验中水滴的运动过程进行研究,考察了水滴与空气主流间的传热与传质现象,建立了水滴运动过程中参数变化的控制方程.基于该方程编制了冰风洞水滴粒径温度变化分析软件,计算分析了过冷水滴在行进过程中相关参数的变化曲线,比较了不同初始条件及各参数对水滴温度、直径和速度的影响.结果表明:不同环境下水滴在运动过程中温度、尺寸和速度变化受来流温度、速度、相对湿度和水滴初始温度的影响,呈现出不同的特点,不能忽略水滴状态参数在冰风洞内的变化.     

负梯度浅海混响条件下吊放声纳主动探测深度研究

负梯度浅海条件下,吊放声纳主动工作时混响呈现"峰"现象,且随吊放声纳深度变化。为此,建立浅海混响模型,采用Bellhop模型计算吊放声纳与海底散射元之间的传播,并依据Jackson模型推导海底反向散射强度的计算方法。结合海底散射面积的估算与吊放声纳主动工作满足小掠射角的特点,对浅海混响进行了仿真和分析。     

载人飞船返回舱着水冲击问题研究进展

通过归纳一般物体入水冲击问题解析法和数值法的种类和发展,对载人飞船返回舱着水冲击问题进行了应用研究;重点对国内外工程上进行的返回舱着水实验进行了整理,并根据实验舱体的复杂程度将其分为模型实验和样机实验两类,指出分别使用刚性缩比模型、弹性缩比模型和样机进行着水实验时,成本、实验周期及其结果数据丰富程度递增的特点,指出了需要注意的弹性近似准确性和样机在不同实验工况下的适应性改造问题：同时对近年来研究较多的返回舱着水冲击问题的仿真分析方法进行了总结对比,讨论了其适用于任意舱体外形、任意姿态着水问题分析以及能够获得全过程详细动力学特性的优势。     

摇摆对水平管内单相水阻力特性的影响分析

对摇摆状态下25mm和34.5mm管径水平管内单相水阻力特性进行了实验研究,通过实验发现,摇摆状态下单相水摩擦压降有明显的周期性,并与摇摆周期相同。雷诺数降低、摇摆振幅增加以及管径增加都会使摩擦压降增加。通过对摇摆周期、摇摆幅度、雷诺数和管径等影响因素的分析,给出了摇摆状态下单相水摩擦系数的计算公式。计算结果表明,得到的摩擦压降满足摇摆条件周期波动的特点,计算结果与实验结果符合较好。     

薄膜传动带拉制成形工艺研究

结合加工技术实践,对薄膜传动带的拉制原理、加工方法、试验和检测、制造和应用中出现的一些明显纵向弯曲、骤断、试验和使用时发生的脱带、断带现象,进行了简要介绍和初步讨论,解决小型精密机械的传动问题。     

Estimation of vertically integrated water vapor in Hungary using MODIS imagery

Information about the amount and spatial structure of atmospheric water vapor is essential in understanding meteorology and the Earth environment. Space-borne remote sensing offers a relatively inexpensive method to estimate atmospheric water vapor in the form of integrated water vapor (IWV). The research activity reported in the present paper is based on the data acquired by the HRPT/MODIS (High Resolution Picture Transmission, MODerate resolution Imaging Spectroradiometer) receiving station established in Budapest (Hungary) by the Space Research Group of the Eötvös Loránd University. Integrated water vapor is estimated by the remotely sensed data of the MODIS instrument with different methods and also by the operational numerical weather prediction model of the European Centre for Medium-Range Weather Forecasts (ECMWF). Radiosonde data are used to evaluate the accuracy of the different IWV fields though it has been pointed out that the in situ data also suffers from uncertainties. It was found that both the MODIS and the ECMWF based fields are of good accuracy. The satellite data represent finer scale spatial structures while the ECMWF data have a relatively poor spatial resolution. The high quality IWV fields have proved to be useful for radiative transfer studies such as the atmospheric correction of other satellite data from times different than the overpass times of satellites Terra/Aqua and the forecast times of the model data. For this purpose the temporal variability of IWV is scrutinized both using ECMWF and MODIS data. Taking advantage of Terra and Aqua overpasses, the mean rate of change of IWV estimated by the near infrared method was found to be 0.47 ± 0.45 kg m⁻² h⁻¹, while it was 0.13 ± 0.65 kg m⁻² h⁻¹ based on the infrared method. The numerical weather prediction model’s analysis data estimated −0.01 ± 0.13 kg m⁻² h⁻¹ for the mean growth rate, while using forecast data it was 0.24 ± 0.18 kg m⁻² h⁻¹. MODIS data should be used when available for the estimation of the IWV in other studies. If no satellite data are available, or available data are only from one overpass, ECMWF based IWV can be used. In this case the analysis fields (or the satellite field) should be used for temporal extrapolation but the rate of change should be calculated from the forecast data due to its higher temporal resolution.     

Experiments on film cooling with sonic injection into a supersonic flow

Film cooling experiments with sonic injection were conducted to investigate the effects of the number of the injection holes, the mass flow ratio, and the hole spacing on the film cooling effectiveness. The mainstream was obtained by the hydrogen-oxygen combustion, entering the experimental section at a Mach number of 2.0. The nitrogen with ambient temperature was injected into the experimental section at a sonic speed. The measured mainstream recovery temperature was approximately 910K. The mass flow ratio was regulated by varying the nitrogen injection pressure. The experimental results show that for the investigated cooling surface, the cooling effectiveness increases with the increase in the number of the injection holes with other parameters held constant. For a fixed cooling configuration, the cooling effectiveness increases with the increase in the mass flow ratio. Different from the subsonic film cooling, the optimal mass flow ratio is not observed. When the hole spacing is less than 4, no obvious difference is observed on the cooling effectiveness and lateral uniformity. With the mass flow ratio increasing further, this difference becomes much smaller. The shock wave also has an effect on the cooling effectiveness. Downstream the incident point of the shock wave, the cooling effectiveness is lower than that in the case without the shock wave.     

航天器用薄膜温度传感器的研制及性能研究

飞行器以高超声速飞行时瞬间温升可达1 600℃以上,为了保证飞行器的可靠和运行安全,准确实时测量热防护系统表面温度显得尤为重要。针对高温环境实时测温的技术难题,结合磁控溅射技术和陶瓷烧结技术,提出了一种引线和传感器基底一体化的微小型高温薄膜温度传感器结构。采用高温检定炉对传感器陶瓷基底的高温绝缘性进行了测试,并使用多种微观形貌表征方法对传感器主要结构材料进行筛选,得到薄膜温度传感器制备所需的最佳材料组合。进行了薄膜温度传感器静态标定和综合性能高温考核试验,结果表明,所研制传感器灵敏度、重复性的变化与标准热电偶基本保持一致,在实际环境温度低于1 500℃时,传感器测量误差不超过4‰,可在1 200℃高温环境中连续准确测温6 h以上,且测温上限高达1 800℃,验证了该传感器在高温环境中进行测温的可行性和实用性,为航天器表面温度测量和热防护系统优化提供科学依据。     

源项不准确加载对源项法模型仿真精度的影响

针对平板多孔气膜冷却结构开展了真实模型和源项法模型数值仿真,在同实验数据对比取得较高精度的基础上探究了源项不准确加载对源项法模型仿真精度的影响,分析了加载方式、流量系数、网格参数等影响因素。结果表明:源项法模型可以代替建立带气膜孔真实模型对气膜冷却结构进行数值计算。网格准确定位的源项加载方式在粗细网格条件下均能取得较高的精度,点源项加载方式对网格较为敏感。因流量系数公式不准确导致的流量计算误差会影响源项法模型的计算精度,低吹风比下影响更为显著。气膜孔进出口处网格面密度应不少于4个/mm2,第一层网格高度的选取应符合所选用的湍流模型,以保证较高的计算精度。