Numerical simulation of base flow with hot base bleed for two jet models

In order to improve the benefits of base bleed in base flow field, the base flow with hot base bleed for two jet models is studied. Two-dimensional axisymmetric Navier–Stokes equations are computed by using a finite volume scheme. The base flow of a cylinder afterbody with base bleed is simulated. The simulation results are validated with the experimental data, and the experimental results are well reproduced. On this basis, the base flow fields with base bleed for a circular jet model and an annulus jet model are investigated by selecting the injection temperature from 830 K to 2200 K. The results show that the base pressure of the annular jet model is higher than that of the circular jet model with the changes of the injection parameter and the injection temperature. For the circular jet model, the hot gases are concentrated in the vicinity of the base. For the annular jet model, the bleed gases flow into the shear layer directly so that the hot gases are concentrated in the shear layer. The latter temperature distribution is better for the increase of base pressure.     

A numerical study on the disturbance of explosive reactive armors to jet penetration

The disturbance of flat and V-shaped sandwich reactive armor configurations to shaped-charge jet is studied by a numerical approach. The disturbing and cutting effects of the two reactive armor configurations to the jet are successfully captured. The predicted disturbance characteristics and patterns are in fairly good agreement with the X-ray photographic observations. The residual depth of penetration into a semi-infinitive homogeneous steel target behind the reactive armor is computed for a series of jet/armor parameters. For the flat configuration, it is demonstrated that the residual penetration depth is not significantly reduced for a normal impact while it is reduced up to 75% for an oblique impact. In comparison, the V-shaped configuration reduces the penetration depth of the jet to 90%, and it is observed that the penetration depth is not sensitive to the V-shaped angle.     

尾流自导鱼雷带角射击弹道仿真

为简化指控系统解算流程,缩短指控系统解算尾流自导鱼雷带角射击参数时间,为后续的鱼雷模拟器的软件研制提供实现手段,提出在尾流自导鱼雷有利提前角射击弹道的基础上进行二次转角航行的改进的尾流自导鱼雷带角射击模型。依据尾流自导鱼雷射击原理,结合有利提前角射击和二次转角射击,对所提出的模型及其约束条件进行了分析与推导,简化了鱼雷带角射击参数的解算。深入分析了尾流自导鱼雷带角射击逻辑,提出采用面向过程设计方法对模型进行仿真,经过对仿真输出图形和仿真数据的分析,验证了所提出模型的准确性。     

舰艇箔条质心干扰对抗多威胁目标方法

摘 要：在未来海战中,水面舰艇将面临多枚导弹攻击的威胁,传统的箔条质心干扰发射决策方法无法有效干扰来袭的多枚导弹;在分析传统箔条质心干扰成功条件的基础上,建立了箔条质心干扰对抗多目标成功判断模型,通过仿真计算,提出了箔条质心干扰对抗多威胁目标方法;可充分发挥现役无源干扰装备的作战潜能,提高海军水面舰艇的生存能力。     

一种鱼雷自导信号频率检测方法研究

靶场在进行智能鱼雷鉴定试验任务时,实时准确地检测出鱼雷自导信号的频率成分是靶标信号处理中的重要环节,谱线比值法便是靶标进行信号处理时检测信号频率的一种有效方法。本文介绍了谱线比值法的基本原理,针对目前鱼雷自导信号特点,对该方法提出了改进方案并进行了仿真。仿真结果表明,经改进的谱线比值法能够满足靶标检测复杂鱼雷自导信号体制下信号频率的使用要求。     

数字电位器在P T100温度仿真中的应用

伴随高速可编程逻辑器件的广泛应用,实时快速可靠地对系统状态信号进行处理,实现对复杂机电系统运行状态的实时监控成为用户追求的目标。基于数字电位器由于可调精度高,控制方便,性能稳定等优点,给出了一种基于CPLD可编程器件,通过数字电位器实现在半实物仿真系统中对PT100热电阻的阻值变化进行等效模拟的工程应用。利用本研究内容,通过上位机界面对系统温度参数进行人工设定,即可轻易实现对PT100热电阻在不同温度下阻值的真实模拟,检验实际系统温度监测装置软硬件的可靠性,确保系统安全运行。     

潜艇应用自航式声诱饵防御声自导鱼雷仿真研究

针对潜艇如何使用自航式声诱饵防御声自导鱼雷,在建立数学模型基础上,采用计算机仿真方法,完成潜艇使用诱饵防御声自导鱼雷的全过程推演和统计计算。通过研究诱饵参数对潜艇防御的影响,对潜艇使用声诱饵防御声自导鱼雷的战斗使用具有一定指导意义。     

大型商业综合体内影院消防设计探讨

重点介绍了某大型商业综合体内影院的消防设计方案,并进行烟气流动和人员疏散的数值模拟分析,得出该影院消防设计是安全可行的.为确保此类影院的消防安全,建议其疏散楼梯设计不受商场营业与否的影响,且应定期维护保养消防系统.     

中庭式建筑防火设计探讨

根据消防实际工作经验,以某星级饭店为工程研究对象,就中庭式建筑的火灾危险性以及规范中关于中庭防火设计问题存在的不明确之处进行探讨,并提出了一些建议和解决对策.     

浅析消防业务信息系统的管理运维

消防业务信息系统日常运维任务是确保实时数据的可用性和完整性,信息能够得到及时处理应用,保障信息系统的正常运行及维护系统资源的安全.加强消防业务系统日常运维的管理标准,规范运维工作的方法,可以减少系统运维中不确定性因素,是提高消防业务工作质量和水平的重要保障.