固体燃料空气涡轮火箭发动机工作模式

根据SP-ATR目前存在的燃气难以兼顾清洁和富燃的问题,文章提出将原本由1股燃气单独承担驱动涡轮和补燃功能的工作模式分解为由2股燃气分别担负驱涡和补燃功能的工作模式。通过对比分析该工作模式的SP-ATR和固冲发动机、涡喷发动机工作特点,提出了适合该形式SP-ATR的性能计算模型,得到其飞行包线,发现该SP-ATR工作包线宽广,可完全包含涡喷和固冲发动机的工作包线。在此基础上,计算得到了SP-ATR在不同空域和速度条件下的飞行性能及变化规律:(1)随飞行高度和速度的增加,其比冲、比推力增加,但性能随外弹道变化幅度较小,整个工作范围性能稳定;(2)在近地面和低空SP-ATR均可实现低空亚音速盘旋和5 km高度以上的超音速飞行,且在比冲高于6 700 N.s/kg,同时保持比推力大于1 100 N.s/kg;(3)高空SP-ATR工作高度速度范围宽,比冲性能与冲压发动机相当,比推力为冲压发动机的2倍,相同飞行速度条件下飞行高度增加比冲增加、比推力增加,具有在更高高度巡航潜力,高空性能优势明显。     

载人航天器空气环境参数控制非定常仿真分析

为支持乘员在轨驻留,载人航天器需通过空气环境控制系统将众多设计参数和空气环境参数控制在指标范围内。文章建立了一种载人航天器空气环境非定常控制仿真分析模型,包括舱体模块、航天员模块、舱压控制模块、温湿度控制模块以及CO2净化模块。利用该模型分析了载人航天器空气环境参数随乘员代谢水平的非定常变化趋势,并评估了控制系统的工作性能。结果表明:乘员代谢水平变化对空气环境参数有显著影响,通过调节控制系统运行参数可将各空气参数控制在有效指标范围内。人区温度与O2分压、CO2分压和人区湿度有密切的影响关系,不可孤立地进行分析。为载人航天器空气环境参数控制系统的设计和流程改进提供了依据。     

Sliding mode control based guidance law with impact angle constraint

The terminal guidance problem for an unpowered lifting reentry vehicle against a sta- tionary target is considered. In addition to attacking the target with high accuracy, the vehicle is also expected to achieve a desired impact angle. In this paper, a sliding mode control （SMC）-based guidance law is developed to satisfy the terminal angle constraint. Firstly, a specific sliding mode function is designed, and the terminal requirements can be achieved by enforcing both the sliding mode function and its derivative to zero at the end of the flight. Then, a backstepping approach is used to ensure the finite-time reaching phase of the sliding mode and the analytic expression of the control effort can be obtained. The trajectories generated by this method only depend on the initial and terminal conditions of the terminal phase and the instantaneous states of the vehicle. In order to test the performance of the proposed guidance law in practical application, numerical simulations are carried out by taking all the aerodynamic parameters into consideration. The effec- tiveness of the proposed guidance law is verified by the simulation results in various scenarios.     

Aeroelastic two-level optimization for preliminary design of wing structures considering robust constraints

An aeroelastic two-level optimization methodology for preliminary design of wing struc- tures is presented, in which the parameters for structural layout and sizes are taken as design vari- ables in the first-level optimization, and robust constraints in conjunction with conventional aeroelastic constraints are considered in the second-level optimization. A low-order panel method is used for aerodynamic analysis in the first-level optimization, and a high-order panel method is employed in the second-level optimization. It is concluded that the design of the abovementioned structural parameters of a wing can be improved using the present method with high efficiency. An improvement is seen in aeroelastic performance of the wing obtained with the present method when compared to the initial wing. Since these optimized structures are obtained after consideration of aerodynamic and structural uncertainties, they are well suited to encounter these uncertainties when they occur in reality.     

飞机冲压空气涡轮系统的动态特性分析

冲压空气涡轮是飞机能源失效时使用的关键应急系统。首先依据冲击空气涡轮（RAT）工作原理确定其物理架构；然后对涡轮部件、能源转换装置、展开装置和展开随动机构等4个主要部件进行力学分析，建立各部件的力学方程组。依据该力学方程组，建立涉及力学、液压、刚体动力学的多学科冲压空气涡轮系统模型。使用该模型仿真了某真实系统在不同工况和设计参数下的动态特性，研究了关键设计参数对系统性能的影响，为冲压空气涡轮系统正向设计提供依据。最终，某型冲压空气涡轮系统风洞试验数据验证了所提系统模型的准确性。     

敬告读者

《空气动力学学报》互联网期刊平台已正式开通使用。该平台集作者投稿、专家审稿、审稿进度查询和刊物网上订阅等功能于一体。作者可登陆进行在线投稿和状态查询,审稿专家可登     

油液含气量对液压系统的影响

飞机液压系统油液的含气量，空气进入飞机液压系统的形式以及飞机液压系统油液中的空气对飞机液压系统的影响，慢慢被国内外从事液压系统研制人们所重视，在国内，一些大专院校和液压技术研究机构正着手研究液压系统中这些问题。一个好的液压系统，它的抗故障能力是较强的，但是，设计中忽视某些问题，则容易产生这样、那样的故障，甚至使液压系统造成灾难性后果，应引起我们重视。     

飞机空气动力学的进展

全面阐述了影响飞机空气动力的诸多因素。主要从６个方面进行了论述：收音机形状和方向效应、雷诺数效应、马赫数效应、机翼平面形状的影响、增升装置和阻力等。最后提出飞机性能的基本空气动力假设来研究飞机运动特性。     

亚音速大攻角细长三角翼机翼摇滚产生的一种机理

本文采用半角析半数值的工程计算方法对亚速大攻角细长三角翼机翼现象进行了计算。