外卡式传感器特征参数的提取与分析

基于试验所检测到的压力波形,通过分析燃油喷射过程,提取了压力波形的特征参数,着重给出了特征点识别的新算法,井用MATLAB开发了相应软件。最后,根据识别结果,分析了调整参数对特征参数的影响。     

基于燃油压力波的柴油机高压喷射系故障信息的研究

本文从柴油机燃油压力波的特征出发,建立ARI(Auto—Regressive Integra—ted)时序参数模型.通过对不同故障下的燃油压力波基于ARI时序参数的现代谱分析,说明ARI时序参数模型较好地揭示了燃油压力波蕴含的故障信息.通过燃油压力波的ARI时序参数构造故障诊断模式向量,根据几何距离与信息距离的测度来诊断故障,具有一定的实践意义.     

柴油机喷油压力波形的符号描述与结构模式分类

波峰和波谷是波形上基本的局部形态特征基于波峰、波谷之间的支配关系,本文提出了一种规则波形的结构特征抽取与符号描述方法,进而建立了一个基于该方法的柴油机喷油压力波形结构模式分类系统,并通过实例验证了该系统的有效性。     

硫磷钼极压剂的研究

用新方法合成了含 S,P,Mo 三种活性元素的油溶性有机化合物,并在四球机、Falex 试验机上作了摩擦磨损试验。结果表明:添加0.5%的该化合物到46~#汽轮机油中就能显示很好的减摩、抗极压作用,在油中、空气中均较稳定。理化性能试验表明:加入该添加剂后,基础油的理化性能均合格。用 X—射线光电子能谱(XPS)对摩擦副的表面进行了测试,初步探讨了其极压抗磨机理。     

液体推进剂液滴高压蒸发研究

本文改进了现有的液体推进剂液滴高压蒸发模型,提出了一个计算高压下液滴蒸发时环境介质气体在液滴中溶解的子模型,该模型中采用了改进的R-K气体状态方程。利用本模型对丙烷在氮气中的高压蒸发进行了计算。结果表明在高压下液滴蒸发时间随压力和环境温度的增加而减小,当压力超过某临界值时,液滴将达到超临界状态。高压下环境介质气体在液滴中的溶解是非常明显的,并且压力愈高溶解性愈大,因此在推进剂高压燃烧中必须考虑溶解性对于液滴蒸发的影响。     

舰艇滑油系统插装式减压阀的设计

介绍了为某型舰艇滑油系统而设计的控制压力低、流通能力大和稳定性好的插装式减压阀;建立了插装式减压阀的数学模型,通过Matlab仿真分析了插装式减压阀的稳态特性,并与试验测试结果进行了比较,验证了设计的结果是准确的.     

油料火灾爆炸模拟实验系统与测试技术

针对受限空间油料火灾爆炸发生、发展、控制、抑制实验的需要,研制了一系列模拟实验台架及关键参数测试系统。所研制的一系列模拟实验台架为各种工况的油料火灾爆炸模拟实验研究提供了完备的科研条件和支撑;研制的超动态数据采集与分析系统能对冲击波压力、瞬时温度、火焰识别、爆燃向爆轰演化(DDT)过程等进行连续捕捉、测试、分析;研制的基于紫外火焰探测、数字信号处理和网络化智能探测技术的油气爆炸火焰传播速度测试系统较传统的火焰传感器具有高灵敏度、零误报、探测距离远的特点。     

Effects of total pressures and equivalence ratios on kerosene/air rotating detonation engines using a paralleling CE/SE method

In this paper, the kerosene/air rotating detonation engines(RDE) are numerically investigated, and the emphasis is laid on the effects of total pressures and equivalence ratios on the operation characteristics of RDE including the initiation, instabilities, and propulsive performance. A hybrid MPI + OpenMP parallel computing model is applied and it is proved to be able to obtain a more effective parallel performance on high performance computing(HPC) systems. A series of cases with the total pressure of 1 MPa, 1.5 MPa, 2 MPa, and the equivalence ratio of 0.9, 1, 1.4 are simulated. On one hand, the total pressure shows a significant impact on the instabilities of rotating detonation waves. The instability phenomenon is observed in cases with low total pressure (1 MPa) and weakened with the increase of the total pressure. The total pressure has a small impact on the detonation wave velocity and the specific impulse. On the other hand, the equivalence ratio shows a negligible influence on the instabilities, while it affects the ignition process and accounts for the detonation velocity deficit. It is more difficult to initiate rotating detonation waves directly in the lean fuel operation condition. Little difference was observed in the thrust with different equivalence ratios of 0.9, 1, and 1.4. The highest specific impulse was obtained in the lean fuel cases, which is around 2700 s. The findings could provide insights into the understanding of the operation characteristics of kerosene/air RDE.     

Hazard evaluation of ignition sensitivity and explosion severity for three typical MH2 (M＝Mg,Ti, Zr) of energetic materials

MgH2, TiH2, and ZrH2 are three typical metal hydrides that have been gradually applied to composite explosives and propellants as additives in recent years. To evaluate ignition sensitivity and explosion severity, the Hartmann device and spherical pressure vessel were used to test ignition energy and ex-plosion pressure, respectively. The results showed that the ignition sensitivity of ZrH2, TiH2 and MgH2 gradually increased. When the concentration of MgH2 is 83.0 g/m3 in Hartmann device, the ignition energy attained a minimum of 10.0 mJ. The explosion pressure of MgH2 were 1.44 times and 1.76 times that of TiH2 and ZrH2, respectively, and the explosion pressure rising rate were 3.97 times and 9.96 times that of TiH2 and ZrH2, respectively, through the spherical pressure vessel. It indicated that the reaction reactivity and reaction rate of MgH2 were higher than that of TiH2 and ZrH2. In addition, to conduct in-depth theoretical analysis of ignition sensitivity and explosion severity, gas production and combus-tion heat per unit mass of ZrH2, TiH2 and MgH2 were tested by mercury manometer and oxygen bomb calorimetry. The experimental results revealed that MgH2 had a relatively high gas production per unit mass (5.15 mL/g), while TiH2 and ZrH2 both had a gas production of less than 2.0 mL/g. Their thermal stability gradually increased, leading to a gradual increase in ignition energy. Furthermore, compared with theoretical combustion heat, the combustion ratio of MgH2, TiH2 and ZrH2 was more than 96.0%, with combustion heat value of 29.96, 20.94 and 12.22 MJ/kg, respectively, which was consistent with the explosion pressure and explosion severity test results.     

氧气体积分数对油气爆炸特性的影响

作为燃烧和爆炸三要素之一,氧气体积分数的控制对于爆炸事故的防治具有重要意义。实验研究了氧气体积分数对汽油蒸气-空气混合物（简称油气）爆炸极限和爆炸压力的影响。结果表明：随着氧气体积分数的降低,油气爆炸下限呈一阶指数规律缓慢增大,油气爆炸上限呈线性规律迅速减小;爆炸极限范围由0.92%~3.76%缩小为1点,该爆炸极限临界点为1.22%,对应的临界氧气体积分数为11.4%;油气的最大爆炸压力和最大压力上升速率随着氧气体积分数的降低而减小,油气体积分数越大,氧气体积分数影响越显著。