Experimental study of gaseous detonation propagation over acoustically absorbing walls

The paper presents results front an experimental investigation of the propagation of gaseous detonation waves over tube sections lined with acoustically absorbent materials. The measurements were compared with results from control tests in a smooth wall section. The results show the increasing effectiveness of a perforated steel plate, wire mesh and steel wool in attenuating detonation.

Studies on two-phase co-current air/non-Newtonian shear-thinning fluid flows in inclined smooth pipes

In this work. co-current flow characteristics of air/non-Newtonian liquid systems in inclined smooth pipes are studied experimentally and theoretically using transparent tubes of 20, 40 and 60 turn in diameter. Each tube includes two 10 m lone pipe branches connected by a U-bend that is capable of being inclined to any angle, from a completely horizontal to a fully vertical position. The flow rate of each phase is varied over a wide range. The studied flow phenomena are bubbly, plug flow, slug flow, churn flow and annular flow. These are observed and recorded by a high flow. stratified flow. -speed camera over a wide range of operating conditions. The effects of the liquid phase properties, the inclination angle and the pipe diameter on two-phase flow characteristics are systematically studied. The Heywood-Charles model for horizontal flow was modified to accommodate stratified flow in inclined pipes, taking into account the average void fraction and pressure drop of the mixture flow of a gas/non-Newtonian liquid. The pressure drop gradient model of Taitel and Barnea for a gas/Newtonian liquid slug flow was extended to include liquids possessing shear-thinning flow behaviour in inclined pipes. The comparison of the predicted values with the experimental data shows that the models presented here provide a reasonable estimate of the average void fraction and the corresponding pressure drop for the mixture flow of a gas/ non-Newtonian liquid. (C) 2007 Elsevier Ltd. All rights reserved.

Experiment on the thermocapillary convection of a mercury liquid bridge in a floating half zone

A liquid bridge of a floating half zone consisting of liquid mercury sealed in a glass tube with nitrogen atmosphere was used for the experiment of thermocapillary convection with a low Prandtl number liquid. A non-contacted diagnostic method was developed to monitor the surface flow and the surface oscillation. A growing surface film (or skin) is a crucial source to suppress thermocapillary convection, and is discussed in this paper. For the case of a mercury Liquid bridge, the critical Marangoni number was obtained as 900, and the oscillatory frequency was around 5 Hz.

Elimination of loading reverberation in the split hopkinson torsional bar

The loading reverberation is a multiple wave effect on the specimen in the split Hopkinson torsional bar (SHTB). Its existence intensively destroys the microstructure pattern in the tested material and therefore, interferes with the study correlating the deformed microstructure to the macroscopic stress-strain response. This paper discusses the problem of the loading reverberation and its effects on the post-mortem observations in the SHTB experiment. The cause of the loading reverberation is illustrated by a stress wave analysis. The modification of the standard SHTB is introduced, which involves attaching two unloading bars at the two ends of the original main bar system and adopting a new loading head and a couple of specially designed clutches. The clutches are placed between the main bar system and the unloading bars in order to lead the secondary loading wave out of the main bar system and to cut off the connection in a timely manner. The loading head of the standard torsional bar was redesigned by using a tube-type loading device associated with a ratchet system to ensure the exclusion of the reflected wave. Thus, the secondary loading waves were wholly trapped in the two unloading bars. The wave recording results and the contrasting experiments for examining the post-mortem microstructure during shear banding both before and after the modification highly support the effectiveness of the modified version. The modified SHTB realizes a single wave pulse loading process and will become a useful tool for investigating the relation between the deformed microstructure and the macroscopic stress-strain response. It will play an important role especially in the study of the evolution of the microstructure during the shear banding process. (C) 1995 American Institute of Physics.

Reflection of shock-wave in pur foam from rigid wall

Keller proposed that a building, a mechanical installation or a body wrapped bya layer of foam plastics may be an efficient means for protection from damage ofblast wave. However, the practical effect was beyond expectation. For example, agunner wearing the foam plastics-padded waistcoat was injured more seriously by theblast wave from a muzzle. Monti took the foam plastics as homogeneous two-phasemedium and analyzed it with the theory of dusty flow. The obtained results showthat the peak pressure behind the reflected shock wave from rigid wall with foamcoat exceeds obviously that without foam coat under the same condition. Gel'fand,Patz and Weaver made experimental observations by means of shock tubes and veri-

Asymmetric structure of an isolated flux arch

This paper extends two-dimensional model of symmetric magnetostatic flux arches confined in stratified atmospheres (Zhang and Hu, 1992, 1993) to asymmetric models. Numerical results show that the flux structure is influenced greatly by the boundary condition of magnetic field, the force-free factor, the atmospheric pressure distribution and the position of footpoints (especially the width ratio of outlet to entrance, which differs from symmetric case).

Equilibrium of isolated magnetostatic flux structure

Two-dimensional magnetostatic models of flux structure confined in stratified atmosphere are discussed in the present paper. The magnetic field in the flux structure is assumed to be force-free at the first step. Numerical solutions for this nonlinear free boundary problem are obtained by finite element method. Results show clearly the relation between the inside fields and outside pressure, especially the influence of atmospheric pressure distribution on the flux structure.

A consistent model of isolated force-free magnetic arches

The magnetic flux tube concentrating strong magnetic field is the basic configuration of magneticfield in the solar atmosphere. In the present paper, the equilibrium of isolated magnetic flux tube inthe solar atmosphere is discussed. In the viewpoint of mathematics, the boundary condition is nonlinearand the position of boundary needs to be determined by the physical condition although the equation ofmagnetic potential is linear for the linear force-free field. Analytical solutions to the arches of bothuniform circular cross-section and non-uniform cross section have been obtained. The results show thatthe nonlinear problem may have or not have any solution according to different azimuthal components of the magnetic field; the number of solutions to the nonlinear problem is four at most, and two in some cases. In the present paper, the analytical solutions to the approximations of both fat and slender arches are given in detail, and the general features of magnetic arch structure are shown.

爆轰驱动高焓激波膨胀管性能研究

介绍了中国科学院高温气体动力学实验室JF-16爆轰驱动高焓激波膨胀管的研制进展及其性能测试结果.性能研究主要测量了入射激波速度和压力曲线.根据入射激波速度,应用Mirels的黏性激波管理论计算了超高速试验气流的运动速度,然后应用Gaseq软件计算了试验气流的热力学参数.研究结果表明：在16.35 m长的JF-16激波膨胀管中获得了流速7000 m/s以上的稳定试验气流,试验时间为50～100μs,试验气流总焓30MJ/kg左右.

爆轰驱动激波管缝合激波马赫数计算

采用数值求解的方法得出了氢氧爆轰驱动激波管的缝合状态参数。以空气为试验气体时，缝合激波马赫数随着H2摩尔浓度的增加而增加，H_2摩尔浓度达到90％左右时达到最大。当缝合马赫数较高时，需要考虑高温真实气体效应的影响，缝合激波马赫数较理想气体的高。以氢空气混合气为试验气体时，缝合激波马赫数较以空气为试验气体的小。通过调整驱动气体与被驱动气体的初始参数，可以得到即能恰好消除Taylor波又能缝合的运行状态。

酚醛树脂激波管试验的高温热解研究

使用激波管作为加热手段研究酚醛树脂在1200～1800K温度范围内的热解特征.气相产物中主要碳氢产物是甲烷、乙烯、乙炔、苯和甲苯.获得试验温度范围内主要碳氢产物分布随热解温度的变化关系.结果表明,在试验温度范围内随着热解温度的升高酚醛树脂的热解机理发生重大变化.1400K以下热解断键过程主要发生在亚甲基桥链结构上;1400K以上芳环开环成为主要的热解通道,生成大量的乙炔.

高焓膨胀波管的气动实验

该研究简报介绍了用膨胀波管产生高超声速气流的实验结果。用压力传感器测量了激波管内的激波速度，用激光全息摄影拍摄了飞船返回舱模型吹风时的激波形状，证实了在膨胀波管中建立了可用的流动条件。

共用尾喷管多管脉冲爆震发动机数值模拟研究

采用基元反应模型和显式迎风TVD差分格式数值模拟方法，研究共用尾喷管多管脉冲爆震发动机（Pulse Detonation Engine，简称PDE）各爆震管之间相互影响。采用点隐算法解决化学反应引起的刚性问题，模拟了共用尾喷管内的流场，以及爆震波退化为激波遇到尾喷管收敛斜面反射及反射波向爆震管上游传播的过程。研究结果为多管PDE的共用尾喷管设计提供了理论基础。

硅烷对JP10和煤油点火特性影响的激波管研究

在JP10和煤油点火特性激波管实验的基础上,实验研究了硅烷对这两种典型高碳数碳氢燃料点火特性的影响.在预加热到70℃的激波管上,采用缝合运行条件获得了近7ms的实验时间,将实验延伸至低温区.采用气相色谱分析和高精度真空仪直接测定压力相结合的方法,确定了燃料气相浓度,解决了高碳数碳氢燃料点火激波管实验时由于管壁吸附影响燃料气相浓度确定的困难.实验记录了点火过程中OH自由基发射强度变化,并作为判断点火发生的标志.实验温度范围880～1 800K,压力范围0.16～0.53MPa.当硅烷加入量约为燃料的10%～15%(摩尔比),质量比为2%～3%,观测到明显的点火促进作用.该研究对超燃研究中发动机设计、燃料选择等方面具有直接的工程意义,也可用于检验燃烧化学动力学模型的合理性.

激波管在酚醛树脂高温热解动力学研究中的应用

使用激波管作为加热手段,利用其加热速率快的优点,突破了传统方法在加热速率上的限制,研究了酚醛树脂在1400～1700K温度范围内的热解动力学.主要碳氢产物是甲烷、乙烯、乙炔和苯.通过对反应扩散过程的分析,考察了扩散对热解过程的影响.结果表明,实验中酚醛树脂的反应扩散过程迅速达到稳态,扩散影响可以忽略,首次获得了酚醛树脂在芳环开环热解机制下的热解速率常数.