Transient simulation of regression rate on thrust regulation process in hybrid rocket motor

The main goal of this paper is to study the characteristics of regression rate of solid grain during thrust regulation process. For this purpose, an unsteady numerical model of regression rate is established. Gas–solid coupling is considered between the solid grain surface and combustion gas.Dynamic mesh is used to simulate the regression process of the solid fuel surface. Based on this model, numerical simulations on a H2O2/HTPB(hydroxyl-terminated polybutadiene) hybrid motor have been performed in the flow control process. The simulation results show that under the step change of the oxidizer mass flow rate condition, the regression rate cannot reach a stable value instantly because the flow field requires a short time period to adjust. The regression rate increases with the linear gain of oxidizer mass flow rate, and has a higher slope than the relative inlet function of oxidizer flow rate. A shorter regulation time can cause a higher regression rate during regulation process. The results also show that transient calculation can better simulate the instantaneous regression rate in the operation process.     

Envelope protection for aircraft encountering upset condition based on dynamic envelope enlargement

Upset condition encountered by an aircraft in flight could pose great threat to flight safety, which is of chief importance in civil aviation. The causal factors have the nonlinear and multiple characteristics, and as a result the conventional envelope protection system cannot successfully do with the condition. So dynamic envelope based on differential manifold theory, which can take more coupling factors into account, is proposed as a basis to design a novel envelope protection system. Then the relationship between the dynamic envelope and the control coefficient or pilot command is obtained, and the result shows that the dynamic envelope can be enlarged with the change of control coefficient. Furthermore, quantification of flight security is realized via defining relative distance between flight state and dynamic envelope, which can detect whether there is a risk for an aircraft in flight. Finally, an envelope protection system based on dynamic envelope enlargement is proposed on the basis. NASA’s Generic Transport Model encountering hazard gust wind in climbing phase is taken as an example to verify the system’s feasibility. The result shows that the system can give a better operation encountering upset condition and to a certain extent reduce the number of accidents or incidents.     

Coupling behavior between adhesive and abrasive wear mechanism of aero-hydraulic spool valves

Leakage due to wear is one of the main failure modes of aero-hydraulic spool valves. This paper established a practical coupling wear model for aero-hydraulic spool valves based on dynamic system modelling theory. Firstly, the experiment for wear mechanism verification proved that adhesive wear and abrasive wear did coexist during the working process of spool valves. Sec-ondly coupling behavior of each wear mechanism was characterized by analyzing actual time-variation of model parameters during wear evolution process. Meanwhile, Archard model and three-body abrasive wear model were utilized for adhesive wear and abrasive wear, respectively. Furthermore, their coupling wear model was established by calculating the actual wear volume. Finally, from the result of formal test, all the required parameters for our model were obtained. The relative error between model prediction and data of pre-test was also presented to verify the accuracy of model, which demonstrated that our model was useful for providing accurate prediction of spool valve’s wear life.     

弹道靶中超高速发射弹的流场及空气动力特性研究(英)

本文描述的是研究爆炸成型发射弹（ＥＦＰ）模型的流场及超高速空气动力特性所用的弹道试验设备；简要报导了记录全尺寸干涉图形的技术；对径向密度分布再现的方法进行了讨论；在零攻角实验时不同模型的空气动力阻力是采用简化方法来计算的；对各种不同ＥＦＰ型式的气动稳定性提出了定性估计的方法；并阐述了用于组合体超高速飞行特性研究的数值计算技术的基本原理     

肼类动态标准气体发生装置的设计

研制了用于制取肼类标准气体的动态配气装置。该装置通过精密控制的蠕动泵连续不断地注射一定量的肼类液体 ,同时以加热的高纯氮气作为载气 ,在动态中混合均匀后得到一定体积分数的肼类标准气体。结果显示 ,在载气温度、载气流量以及环境温度一定的条件下 ,通过控制进给流量可制备体积分数为 (0 .1～ 10 0 )× 10 -6的肼类标准气体     

空间群Pn3mPn3P23子群链耦合系数的计算

本文利用陈金全教授的本征函数法计算了Pn3m Pn3 P2 3空间群的母分系数。最后的计算结果表明 ,用陈金全教授的本征函数法所求得的母分系数确实满足幺正、归一性 ,同时也证明了本征函数法对于求母分系数同样适用     

针对不同目标时对接机构适应性研究

讨论了对接过程的动力学模型、与不同质量飞行器对接过程的特点，以纵向性能为例，提出了缓冲性能参数与对接初始条件组合设计，使对接机构能够适应不同对接飞行器质量特性的要求。仿真结果表明，该方法是可行的。     

桁架结构的静动态特性有限元分析

通过对桁架结构的静、动态分析，探讨如何建立桁架的有限元模型及计算方法，并利用MSC．Patran／Nastran程序对该结构进行静、动态分析计算，计算结果与实际情况吻合。     

飞机机头附近液态水含量分布规律的数值研究

在飞行器飞行过程中,安装在机头上的各类传感器结冰会对飞机的飞行安全产生不利影响。而液态水含量是影响飞机结冰的重要参数,为了更好地进行传感器结构及布局设计,对机头附近液态水含量分布规律进行数值研究。采用计算流体力学方法对飞机飞行时的空气-过冷水滴的稀疏两相流场进行数值模拟,通过求解N-S方程获得空气流场,采用欧拉法求解水滴运动场得到水滴运动轨迹。分析在不同来流马赫数、来流迎角及液滴直径等条件下,机头关键截面上广义水滴遮蔽高度的变化及机头关键位置上液态水含量的变化规律,研究不同状态参数对液态水含量分布的影响。结果表明:水滴遮蔽高度及浓度增加区范围随马赫数增大而增加,迎角的变化对机头上下表面液态水含量分布产生相反的影响。     

某型减压器安全阀持续放气故障试验研究

某型飞机氧气系统所用的集成减压器在使用过程中连续多次出现低压安全阀持续放气故障,为了分析故障原因,根据该型减压器结构和工作原理,结合对故障现象和故障树的分析,设计相关试验,提出改进措施,并进行试验验证。结果表明：减压活门的阻尼特性与减压器的输出流量不匹配是导致故障的主要原因。在大流量情况下,减压活门一直处于振动状态,使...