低温流体闪蒸喷雾研究

为了研究低温流体闪蒸喷雾特性,建立了低温流体闪蒸计算模型,并通过试验进行了验证。在欧拉-拉格朗日框架下采用CFD-DPM方法模拟了闪蒸过程的气-液两相流场。研究表明,在闪蒸喷雾形态和温度分布特性方面,数值模拟与试验结果吻合。低温流体喷入低压环境后,在喷嘴出口附近便发生剧烈的闪蒸现象,呈现出巨大的喷雾角,并且喷雾温度急剧下降至环境压力对应的饱和温度;在喷嘴出口附近区域(x/d～40),过热闪蒸占据绝对主导地位,其蒸发速率高出其他换热2个数量级,随着喷雾液滴运动至流场下游,对流换热与热传导逐渐占据主导地位。闪蒸带来的强烈换热导致喷嘴附近可能会发生复杂的气-液-固相变,将会对发动机高空可靠点火带来风险。     

Modeling and Simulation of Pipeline Security Monitoring System Based on Line-Structure Sagnac Interferometer with 3×3Coupler

The third damage action,human disruption behavior,is one of the major threats to pipeline operation.It is necessary to monitor and locate the perturbation behavior that may threat pipeline safety in real-time.Therefore,a new pipeline security monitoring system is designed by using line-structure Sagnac optic fiber interferemeter with the characteristic of 3×3coupler that can modulate the phase of optic signal,with no need for phase modulation and demodulation.The optic structure of the new system is simplified,the signal processing accuracy is improved,and the polarization effect is reduced.The working principle of the monitoring in ideal condition is described,the phase demodulation is analyzed and the location of the possible damage action point is formulated.By using simulink,the optic signal propagation and interference is simulated and interference signals in different frequencies are obtained.The results validate the feasibility of the monitoring system and indicate that the low frequency signal less than 1kHz resulting from the human damage action can be detected.The disturbance set at 10 km can be located by calculating the demodulation signal accurately over a long monitoring distance.     

基于随机时延的弹射式干扰研究

针对传统噪声压制技术对合成孔径雷达形成有效干扰需要功率比较大的特点,研究了一种随机时延的弹射式干扰方法。该方法是在传统的弹射式干扰基础上,采用随机的干扰机转发时延。由于采用随机时延,方位向不同的回波时延不同而不能被压缩,干扰信号的距离向的压缩虽能成像,但已经是随机分布的。改进后的弹射式干扰能够覆盖整个成像区域,形成类噪...     

The turbo PMHT

The PMHT (probabilistic multihypothesis tracker) uses "soft" a posteriori probability associations between measurements and targets. Its implementation is a straightforward iterative application of a Kalman smoother operating on "synthetic" (i.e., modified) measurements, and of recalculation of these synthetic measurements based on the current track estimate. In this correspondence, we first discuss the basic PMHT and some of the older PMHT variants that have been used to enhance convergence. We then introduce the new turbo PMHT, which is informed by the recent success of turbo decoding in the digital communication context. This new PMHT has performance substantially improved versus any of the previous versions.     

测定应力强度因子的守恒积分┐光弹性法

提出了测定断裂力学中应力强度因子的守恒积分－光测弹性力学方法,推导了守恒积分中位移梯度的应力分量表达式,从而可由应力光图所提供的信息计算守恒积分,并确定应力强度因子．本方法克服了单参数法与双参数法固有缺点．由此所得结果与由边界配置法所得结果非常一致．     

嵌入式软件仿真测试环境软件体系结构研究

利用嵌入式软件仿真测试环境(ESSTE,Embedded Software Simulation Testing Environment)对实时嵌入式软件进行系统测试是国内外公认的、行之有效的方法.基于UML和"4+1"视图模型,系统地对ESSTE的软件体系结构进行了描述.各个视图之间保持了良好的一致性,特别地,在设计视图中将ESSTE软件分为两大组件-实时组件和非实时组件,并按照"管道-过滤器"的软件体系结构模式组织,分别给出了它们的关键类.非实时组件的关键类是配置工具类,实时组件的关键类是模型类、实时变量类和调度器类.据此设计和实现的ESSTE-Basic体现了较好的质量特性,如可更改性、可移植性等,其成功地对多个软件进行了系统测试,高效地发现了大量潜藏的软件错误,验证了ESSTE软件体系结构的正确性和有效性.     

基于负载转矩观测的矿用牵引电机积分滑模控制

为了改善电机车牵引电机速度控制性能,提高系统抗扰性能和对参数变化的鲁棒性,提出了在控制系统的速度控制器中用积分滑模代替传统PI控制。设计了负载转矩观测器对负载转矩实时观测,将观测值加入到控制中,提高了在负载突变时的速度控制能力。仿真表明,负载转矩观测器能快速、准确地观测负载转矩,带负载观测的滑模转速控制对负载扰动和转子电阻有较强的鲁棒性,有效地抑制了滑模控制的固有抖振。     

水平轴风车叶轮侧偏或上仰时的气动力计算与分析

本文将动量-叶素理论推广应用于计算水平轴风车叶轮有侧偏角或上仰角时的气动力。计算结果与实验数据比较表明:这种计算方法简单快速,并有一定的准确度。所得结果对合理设计小型水平轴风车侧偏式或上仰式限速机构很有用。