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181.
介绍了采用引射火箭模式的RBCC发动机工作原理,并在对其概念设计模型进行简化的基础上,进行了RBCC发动机系统性能分析,评估了RBCC发动机系统主要设计参数(发动机系统出口截面直径和燃料化学反应后的总温)的变化对其性能(推力、推力系数和比冲)的影响,认为:1)燃料经过加热后,推力和推力增益都上升了69.97%,比冲增加了180.18%;2)随着二次燃烧过程中燃烧室温度的上升,发动机的推力、推力增益和比冲得到了很大的提高,火箭发动机的性能得到了很好的改善;3)随着RBCC发动机系统出口截面直径的增加,尾气对发动机的反推力、推力增益以及比冲急剧下降,不利于其性能的改善。 相似文献
182.
燃烧室新材料在卫星双组元低推力发动机上的应用 总被引:5,自引:0,他引:5
对有代表性、有发展前途的几种新材料进行比较 ,并根据应用新材料的低推力发动机燃烧室的结构特点 ,分析了不同冷却方式对双组元低推力发动机性能损失的影响 ,为双组元低推力发动机燃烧室的材料选择、加工工艺、设计优化提供参考。 相似文献
183.
184.
较系统地介绍了应用于液体火箭发动机推力室冷却的层板技术,指出了层板发汗冷却的技术优势。介绍了一内壁全部由层板构成的液体火箭发动机推力室结构及其层板发汗冷却单元的设计和加工工艺问题。总结了国内外关于层板发汗在火箭推力室冷却方面的研究进展,并简要论述了其应用前景。 相似文献
185.
186.
利用混合法解决了有限推力作用下单OSV服务多卫星的转移轨道优化问题.首先从OSV携带燃料的角度出发,初步筛选出在其服务范围内的服务对象,基于双脉冲交会假设,确定了服务序列以及时间节点;其次针对每一段转移轨道,利用Pontryagin极小值原理推导出最优控制律,设定开-关-开的发动机工作方式,将初始协态变量和开关机时间进行参数化处理,采用遗传算法对非线性规划问题进行求解;最后对整条轨道进行拼接优化.仿真结果表明,混合法对协态变量初值猜测敏感性小,降低了搜索最优转移轨道的难度,且控制轨线光滑. 相似文献
187.
Young-Joo Song Sang-Young Park Kyu-Hong Choi Eun-Sup Sim 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009
A design technique for a near optimal, Earth–Moon transfer trajectory using continuous variable low thrust is proposed. For the Earth–Moon transfer trajectory, analytical and numerical methods are combined to formulate the trajectory optimization problem. The basic concept of the proposed technique is to utilize analytically optimized solutions when the spacecraft is flying near a central body where the transfer trajectories are nearly circular shaped, and to use a numerical optimization method to match the spacecraft’s states to establish a final near optimal trajectory. The plasma thruster is considered as the main propulsion system which is currently being developed for crewed/cargo missions for interplanetary flight. The gravitational effects of the 3rd body and geopotential effects are included during the trajectory optimization process. With the proposed design technique, Earth–Moon transfer trajectory is successfully designed with the plasma thruster having a thrust direction sequence of “fixed-varied-fixed” and a thrust acceleration sequence of “constant-variable-constant”. As this strategy has the characteristics of a lesser computational load, little sensitivity to initial conditions, and obtaining solutions quickly, this method can be utilized in the initial scoping studies for mission design and analysis. Additionally, derived near optimal trajectory solution can be used as for initial trajectory solution for further detailed optimization problem. The demonstrated results will give various insights into future lunar cargo trajectories using plasma thrusters with continuous variable low thrust, establishing approximate costs as well as trajectory characteristics. 相似文献
188.
结合飞行安全和作战效能需求,对过失速战斗机的大迎角/过失速迎角下俯敏捷性指标及纵向控制效能需求进行了研究.为了满足飞行品质和过失速敏捷性指标要求,采用非线性动态逆方法设计了某推力矢量飞机快回路和慢回路飞行控制律.在此基础上,根据过失速下俯敏捷性和滚转敏捷性指标要求,对所需的最小俯仰推力矢量偏角进行了计算分析,所得结果对先进战斗机的设计有一定的参考价值. 相似文献
189.
Matteo Ceriotti Giulia Viavattene Iain Moore Alessandro Peloni Colin R. McInnes Jan Thimo Grundmann 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(9):3012-3026
Near-Earth object (NEO) in-situ exploration can provide invaluable information for science, possible future deflection actions and resource utilisation. This is only possible with space missions which approach the asteroid from its vicinity, i.e. rendezvous. This paper explores the use of solar sailing as means of propulsion for NEO rendezvous missions. Given the current state of sail technology, we search for multiple rendezvous missions of up to ten years and characteristic acceleration of up to 0.10 mm/s2. Using a tree-search technique and subsequent trajectory optimisation, we find numerous options of up to three NEO encounters in the launch window 2019–2027. In addition, we explore steerable and throttleable low-thrust (e.g. solar-electric) rendezvous to a particular group of NEOs, the Taurid swarm. We show that an acceleration of 0.23 mm/s2 would suffice for a rendezvous in approximately 2000 days, while shorter transfers are available as the acceleration increases. Finally, we show low-thrust options (0.3 mm/s2) to the fictitious asteroid 2019 PDC, as part of an asteroid deflection exercise. 相似文献
190.
Daniele Romagnoli Thimo Oehlschlägel 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2011
The purpose of this paper is to present a high performance solar sail attitude controller which uses ballast masses moving inside the sail’s booms as actuators and to demonstrate its ability of performing time efficient reorientation maneuvers. The proposed controller consists of a combination of a feedforward and a feedback controller, which takes advantage of the feedforward’s fast response and the feedback’s ability of responding to unpredicted disturbances. The feedforward controller considers the attitude dynamics of the sailcraft as well as the disturbance torque due to the center of pressure offset to the center of mass of the sailcraft. Additional disturbance torques, like those coming from the environment or from asymmetry of the spacecraft structure, are then handled by the feedback controller. Simulation performance results are finally compared against results available in the literature. 相似文献