Conceptual design of a bioregenerative life support system containing crops and silkworms

This article summarizes a conceptual design of a bioregenerative life support system for permanent lunar base or planetary exploration. The system consists of seven compartments – higher plants cultivation, animal rearing, human habitation, water recovery, waste treatment, atmosphere management, and storages. Fifteen kinds of crops, such as wheat, rice, soybean, lettuce, and mulberry, were selected as main life support contributors to provide the crew with air, water, and vegetable food. Silkworms fed by crop leaves were designated to produce partial animal nutrition for the crew. Various physical-chemical and biological methods were combined to reclaim wastewater and solid waste. Condensate collected from atmosphere was recycled into potable water through granular activated carbon adsorption, iodine sterilization, and trace element supplementation. All grey water was also purified though multifiltration and ultraviolet sterilization. Plant residue, human excrement, silkworm feces, etc. were decomposed into inorganic substances which were finally absorbed by higher plants. Some meat, ingredients, as well as nitrogen fertilizer were prestored and resupplied periodically. Meanwhile, the same amount and chemical composition of organic waste was dumped to maintain the steady state of the system. A nutritional balanced diet was developed by means of the linear programming method. It could provide 2721 kcal of energy, 375.5 g of carbohydrate, 99.47 g of protein, and 91.19 g of fat per capita per day. Silkworm powder covered 12.54% of total animal protein intakes. The balance of material flows between compartments was described by the system of stoichiometric equations. Basic life support requirements for crews including oxygen, food, potable and hygiene water summed up to 29.68 kg per capita per day. The coefficient of system material closure reached 99.40%.     

卫星控制中心系统平台的高可用设计与实现

卫星控制中心是卫星地面测控管理系统的重要组成部分。随着信息技术的飞速发展和测控关键业务量的增长,高可用性、高可靠性及易维护日益成为卫星控制中心系统的设计目标。为满足卫星测控任务的需求,本文描述了卫星控制中心的网络系统、数据处理系统和数据库集群系统的高可用设计,并给出具体项目的成功实现。     

飞行器数字姿控系统数字校正滤波器参数优化设计

本文提出一种数字校正滤波器Z域最佳逼进设计算法,根据数字滤波器期望特性,在Z平面上直接优化设计滤波器参数,这种算法对任何形式的数字校正滤波器(递归式和非递归式)均是适用的。     

CAD应用软件中的屏幕图形菜单设计

本文以级进模的计算机辅助为例，讨论了多层屏幕图形菜单的制作方法。菜单采用弹出式方式实现，灵活方便，可广泛应用于ＣＡＤ应用软件。     

可靠性设计优化的球空间设计法

可靠性设计优化（RBDO）在航空航天等领域已经被广泛应用，具有显著提高可靠性的效果；然而它包含两个迭代循环-总体优化循环和可靠性分析循环，双循环求解方法效率低下甚至难以承受。本文提出一种可以提高可靠性设计优化求解效率的方法-球空间设计法，该方法可以方便地表达搜索区域，最大可能失效点可以从极值点处精确获取；同时，该方法可以将总体优化以及可靠性分析同步进行。本文所提出的球空间法的有效性将通过2个算例进行测试，测试结果表明该方法不仅精度与同类方法持平，求解效率有明显提升，它将会对提高航空航天装备如卫星、火箭、飞行器等产品的可靠性提供更为有效的方法和技术支持。     

静压气浮轴承工程设计方法研究

静压气浮轴承是惯性器件测试平台回转支撑轴系的关键部件，其承载能力和回转精度对惯性器件测试的准确性有着重要的影响，目前，静压气浮轴承设计、计算过程复杂，为提高设计效率，简化设计方法，在满足静压气浮轴承性能的条件下，推导了静压气浮轴承工程计算公式，在此基础上，设计了一款双向止推空气轴承，确定了几何参数，计算了空气静压径向轴承、空气静压止推轴承的轴承承载力、刚度、耗气量及摩擦力矩，并与有限元仿真结果进行了对比分析，验证了该设计方法的有效性。     

民用通风机气动设计新特点及设计方法的新发展

本文通过对一种新型高性能矿用局部通风机的设计、制造及试验全过程的综述,展现了新的先进设计体系在民用通风机上的成功运用,其研制特点是:(1)在叶片气动设计中为了降低叶根及叶尖区二次流损失,采用可控涡扭向规律设计,样机实测的高性能验证了这种方法的可行性和高效性;(2)在设计方法中采用较精确的数值反验算,获取最优设计方案,大大提高设计的准确性和成功率,并缩短了设计试制周期。      

线性模型跟踪控制系统的模型匹配设计

研究了用完全模型匹配方法求解模型跟踪控制的问题。对通常的模型匹配解法进行了扩展,并所据此引入广义最小方差控制思想,提出一种模型跟踪和误差的新方法。最后,对该方法在惯性导航系统中的应用进行了仿真研究。验证了其可行性和有效性。     

防热结构的局部防热研究

对回收式返回器的分析结果表明,表面的突起物是防热结构局部过热的重要起因。分析了防热结构的局部过热现象,提出了一种局部防热结构设计分析方法。分析计算结果与地面试验和飞行结果进行了分析比较。     

机载可见近红外成象光谱仪的设计

本文阐述了一种可行的面阵CCD 成象光谱仪的设计。它具有光谱范围宽(0.4μm～1.1μm)、高光谱分辨率(9.2nm)、密集的光谱波段数(76)、较大的地物扫描视场角(30°)等一系列引人注目的优点。