基于机械泵控制的毛细分离式喷雾冷却回路热控系统仿真分析

文章分析用于空间环境下的毛细分离式喷雾冷却回路热控系统原理,通过节点网络法建立该热控系统4节点热网络模型;运用数值仿真方法,以机械泵为控制对象,对该系统分别采用PID控制和模糊增量控制方案的热控效果进行对比。结果表明,模糊增量控制与PID控制相比,超调量较小且达到稳态时间短,具有良好的控制鲁棒性。     

Parallel-Computing Wavelet-Based FDTD Method for Modeling Nanoscale Optical Resonator

An efficient wavelet-based finite-difference time-domain （FDTD） method is implemented for analyzing nanoscale optical devices, especially optical resonator. Because of its highly linear numerical dispersion properties the high-spatial-order FDTD achieves significant reduction in the number of cells, i.e. used memory, while analy- zing a high-index dielectric ring resonator working as an add/drop multiplexer. The main novelty is that the wave- let-based FDTD model is extended in a parallel computation environment to solve physical problems with large di- mensions. To demonstrate the efficiency of the parallelized FDTD model, a mirrored cavity is analyzed. The analysis shows that the proposed model reduces computation time and memory cost, and the parallel computation result matches the theoretical model.     

基于发动机高模试车的高温隔热屏热模型修正技术

与常压环境地面试车相比,发动机高空模拟试车的热源分布更接近于实际飞行工况,本文通过搭载高模试车验证了高温隔热屏设计的正确性。通过考虑高温隔热屏层间气体导热和接触导热等,对高温隔热屏的传热模型进行了修正,其计算结果与高空模拟试车搭载试验结果的误差较小。在考虑真空引射背景红外辐射以及真空舱内气体与发动机及隔热屏的导热后,利用修订的高温隔热屏的当量热导率,进行了上面级高空模拟整机热分析,进一步提升了热模型的分析精度。