环境模拟舱体的建模仿真及控制方法

环境试验时需要精确控制环境模拟舱体内的温度以满足军标要求,同时为了解决环境模拟舱体内加热过程中升温速率与控制精度之间的矛盾,在对其温度变化进行动态特性分析与建模的基础上,提出采用专家控制策略控制环境模拟舱内的温度,并对其控制效果进行了仿真研究.仿真结果与现场运行调试结果均表明:专家控制方法具有无超调、响应速度快、稳态精度高、加温效率明显的优点,是可行和有效的;与试验数据相比,建立的传热模型和控制系统模型具有较高的准确性,符合实际情况.这种建模仿真及控制方法为实际过程中研究控制规律提供了有力的参考和帮助,对研究类似问题具有深远意义.      

随机追踪策略预测钟差的理论分析

稳健流逝性是时间区别于其它物理量的重要特征,决定了时间计量的滞后性。为了保障未来时刻的准确性,时间信号的预测及控制尤为关键。从理论视角分析了随机追踪策略的基本原理、预测不确定度以及关键参数优化等问题,明确了随机追踪预测钟差的运行机理,并进一步阐述了该方法的适用性,同时提出两点进一步改进的研究思路。     

膏体富燃料推进剂配方研究

研究了可用于双射程冲压发动机的膏体富燃料推进剂。结果表明,以PEPA/EG为粘合剂、无定型硼粉为燃料添加剂时,推进剂的实测热值可达28.7 M J/kg。使用经表面处理的无定型硼粉,加入量可在40%以上。膏体富燃料推进剂具有剪切变稀的性质,其流动指数和稠度系数随温度的上升呈下降趋势。配方的低压可燃极限为0.2~0.3 MPa,燃速r0.5MPa>12 mm/s,压强指数约为0.43。     

超薄型钢结构防火涂料的研究--防火涂料主要组分用量对防火性能的影响

选用氨基树脂和丙烯酸树脂混合体系为基料,聚磷酸铵、三聚氰胺、季戊四醇为阻燃体系,钛白粉和硅石粉为颜填料,制备超薄型钢结构防火涂料,并研究了基料、阻燃体系、颜填料用量对防火涂料防火性能的影响。研究表明:混合基料树脂占30%(质量分数,下同),其中m(氨基树脂):m(丙烯酸树脂)=3:1;阻燃体系占32%,其中m(聚磷酸铵):m(三聚氰胺):m(季戊四醇)=2:1:1;颜填料占10%时制得的防火涂料防火性能最佳。     

自硬树脂砂型的开裂原因及防止措施

简述了冷硬树脂砂型在某些情况下的产生开裂的原因及机理,讨论了几种解决的方法,有利于改进产品质量,减少双方的经济损失.     

叠氮粘合剂推进剂热分解及燃烧性能研究综述

综述了叠氮类粘合剂ＧＡＰ，ＢＡＭＯ和ＡＭＭＯ的热分解及共推进剂的燃烧性能，认为叠氮类推进剂中－Ｎ３基受热易分解，因而基础燃速高，燃速温度敏感性大；在配方中引入有效的添加剂，可提高该类推进剂的燃速，降低其压强度指数。     

用动态分析法表征复合推进剂偶联剂的作用效果

研究了偶联剂对复合推进剂动态力学损耗的影响。建立了一种动态力学分析方法，即通过建立过渡相模型和引入表征因子Ａ，分别在ＨＴＰＢ和聚醚两种体系的复合推进中评价了偶联剂的作用效果。结果表明，天征因子Ａ值越低，偶联剂在该温度范围内的作用效果越好，该结论为表征复合推进剂关剂的作用效果提供了一种新的方法。     

关于普通高校体育教学的思考

通过对高校体育教学中的教学模式、内容设制、考核形式几方面的分析、探讨，提出了高校体育教学应以未来社会人才的需要为出发点，使体育教学从根本上摆脱传统教学观念的束缚，从单纯培养“知识型”、“技能型”人才向培养“创造性”、“综合性”、“应用性”人才转变。     

Variability and climatology of precipitable water vapor from 12-year GPS observations in Taiwan

Because of global warming, global sea levels have risen, the frequency of drought in Taiwan is much more frequent in winter and spring, and rainfall tends to concentrate in summer. The probability of disaster-type weather has also increased significantly. Estimating precipitable water vapor (PWV) through GPS signals, related studies and analyses of weather conditions, and the effective use of meteorological forecasts have been valued by many meteorological research organizations and officials. In this study, PWV data from 2006 to 2017 and rainfall data were used for long-term harmonic analysis. PWV data calculated by ECMWF (ECMWF-PWV) and PWV data calculated by GPS (GPS-PWV) were subjected to regression analysis to verify the reliability of the GPS-PWV data. The research results show that GPS-PWV and ECMWF-PWV have extremely high correlations; however, the climatic characteristics of some regions and the high spatial resolution of GPS-PWV are able to accurately calculate the high topographic relief of small areas. It is judged that the GPS-PWV is more accurate than the ECMWF-PWV. It is worth noting that the PWV trend of the regions during the 6-year-before period has not changed very much, but the rainfall trend has changed obviously. Except for the eastern region, most of the regions show a decreasing trend year by year. More long-term observations are still needed to prove whether this phenomenon relates to global warming. Long-term rainfall analysis showed that the topography blocked water vapor to the western, southern, and mountainous regions, making them distinctly wet or dry. The harmonic curve showed great consistency with the peaks of PWV and rainfall. However, in the northern and eastern parts of the windward side, the time when maximum rainfall occurred each year may be one month later than the time when the maximum PWV value occurred each year. The reason for this difference is likely to be a decrease in the number of autumn typhoons, resulting in a nearly one-month difference in PWV peaks and rainfall peaks. Finally, we analyzed the linear trend of GPS-PWV and temperature for all regions in Taiwan, and found that annual increasing rate of GPS-PWV and temperature of all regions are within 0.4–0.5 mm/year and 0.04–0.11 C°/year, respectively.     

PDM二期工程在中国燃气涡轮研究院的应用

一期工程的成功实施,使我院相关业务得到了很快的发展,有力地保障了科研生产工作的顺利进行.为了进一步推进数字化设计和数据管理平台建设,促进设计管理水平的不断提高,我院决定开展PDM二期工程实施,在一期的基础上进行系统深化的应用并将实施范围扩展到江油院区.