舰空导弹武器系统信息化发展对策

为打赢未来海上信息化战争,作为舰艇编队盾牌的舰空导弹必须适应信息化发展的要求。主要研究了国外舰空导弹作战体系发展和美军"网络中心战"思想,提出了必须尽快发展具有实战能力的舰载和空中平台装载的舰空导弹协同作战系统,提高舰空导弹的信息化水平,研究相关的信息对抗手段及电子对抗装备,确保舰空导弹在复杂电磁环境下正常工作。     

舰空导弹武器抗干扰与反隐身技术研究

电子战在现代战争中的地位和作用日益提高,已从战争辅助保障手段发展成为战争中不可缺少的重要作战武器;电子战是现代战争的序幕与先导,并贯穿于战争的全过程,进而决定战争进程和结局.在分析舰空导弹武器面临的典型干扰目标威胁环境基础上,分析了目前舰空导弹武器存在的主要问题,提出了舰空导弹武器系统发展方向的建议.     

组合赋权法在指控系统性能评估中的应用

对作战单元以上级防空导弹指控系统的性能评估是一个多目标评价过程,多目标评价中的关键点是目标权重的确定.运用基于最小三乘原理的组合赋权法,根据给定的评估指标体系,对指控系统性能进行综合评价,给出了系统性能的评估算法,并在仿真系统中得到验证.     

基于模糊Petri网的航材供应链冲突诊断建模与分析

结合航材供应链特点,建立航材供应链冲突诊断指标体系,并将节点问协作指标引入体系之中。通过模糊产生式规则,建立航材供应链冲突诊断模型,进行诊断推理,找出引起冲突的关键因素,并提出航材供应链冲突的防范对策。     

太阳能-空气源热泵热水系统在办公建筑中的应用

太阳能、空气能作为可再生能源,在建筑节能中越来越受到人们的重视.在分析两类能源各自优缺点的基础上,指出了太阳能--空气源热泵组合热水系统在热水稳定供应及节能环保方面的优势.通过实例进一步分析了技术经济性,结果表明太阳能--空气源热泵组合热水系统在经济性和节能性方面均优于常规热水器,值得大力推广使用.     

不同海拔富氧进气柴油机富氧经济性分析

建立了高海拔条件下柴油发动机富氧进气燃烧排气氧气体积分数与进气氧气体积分数关系的模型,对海拔2 000,3 000和4000m处不同转速时发动机富氧进气的燃烧状况和富氧经济性进行研究.结果表明:模型预测结果与试验结果吻合较好,当发动机正常进气过量空气系数α＜1.2时,富氧进气改善发动机燃烧状况的效果明显.发动机富氧进气...     

舰舰协同防空的舰空导弹杀伤区分析

针对舰艇编队协同防空时的耦合杀伤区形状及纵深等问题进行了研究,以定量地对编队耦合杀伤区进行简化描述。分析了单舰对典型目标的杀伤区特性,探讨了舰艇编队的典型防空队形,研究了纵向上递阶多层次、横向上同阶耦合的"递阶封闭圈原理"。以一阶耦合杀伤区为重点,依据攻击目标的不同,将其分成相对航路捷径为零和相对航路捷径均非零两类情况建立了耦合杀伤区纵深的计算模型,并扩展到了高阶耦合的情况。研究了耦合杀伤区与舰舰间距和来袭目标进攻舷角等参数的相互关系以及灵敏度。结果表明建立的模型符合实际,具有一定的指导意义。     

基于Multi-Agent的防空导弹武器系统模型设计

建立科学的结构模型是进行防空导弹武器系统仿真的基础和关键环节。针对防空导弹武器系统的特点,提出了基于Multi-Agent的防空导弹武器系统模型建模方法,设计了防空导弹武器系统模型结构。利用Multi-Agent建模技术,把防空导弹武器系统实体映射成相应的Multi-Agent系统,并以Agent的形式对防空导弹武器系统这一客观复杂系统进行了深刻的认识,为防空导弹武器系统建模仿真奠定了基础。     

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.     

Effect of metal powders on explosion of fuel-air explosives with delayed secondary igniters

In order to improve the energy level of fuel air explosive(FAE) with delayed secondary igniters, high energetic metal powders were added to liquid fuels mainly composed of ether and isopropyl nitrate. Metal powders' explosive properties and reaction mechanisms in FAE were studied by high-speed video, pressure test system, and infrared thermal imager. The results show that compared with pure liquid fuels, the shock wave overpressure, maximum surface fireball temperature and high temperature duration of the mixture were significantly increased after adding high energetic metal powder. The overpressure values of the liquid-solid mixture at all measuring points were higher than that of the pure liquid fuels. And the maximum temperature of the fireball was up to 1700 ℃, which was higher than that of the pure liquid fuels. After replacing 30％of aluminum powder with boron or magnesium hydride, the shock wave pressure of the mixture was further increased. The high heat of combustion of boron and the hydrogen released by magnesium hydride could effectively increase the blast effect of the mixture. The improvement of the explosion performance of boron was better than magnesium hydride. It shows that adding high energetic metal powder to liquid fuels can effectively improve the explosion performance of FAE.