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71.
基于微分几何推导出了不等极孔椭球类容器纤维缠绕的非测地线稳定缠绕方程,并根据薄膜理
论、层合板理论、蔡-吴失效准则得到了赤道处纤维层的最小厚度1. 281 7 mm,计算出的纤维方向的应力小于
纤维的极限强度3. 92 GPa。发现纤维缠绕椭球容器的应力状态是赤道处最先发生破坏,且会出现局部失效现
象。以缠绕层最小质量M 为目标函数,蔡-吴失效准则为约束条件,在给定内压5 MPa 的情况下,得到了优化
后的容器质量为34. 072 kg。相比于等极孔的容器而言,非测地线缠绕具有高度非线性、不稳定性及精度难以
控制等问题。 相似文献
72.
Shailendra S. Srivastava N.K. Vyas Jagdish Rai B. Kartikeyan 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009,44(9):1058-1066
Rayleigh optical depth is an integral part of many radiative transfer problems. This paper discusses different elements and approaches of its determination. Then, it presents a method, which ensures more realistic estimate of Rayleigh optical depth by using refractive index and depolarization factor (including rotational Raman lines) adjusted according to the state and composition of the atmosphere. It is based on the published experimental and theoretical results. The Rayleigh optical depth calculations are compared with the Elterman’s model calculations for trend analysis purpose. Rayleigh optical depths are found to be around 3.4% lower than previous researchers, as they ignored the constraints of conservation of angular momentum in the rotational/vibrational transitions of the molecules during scattering. 相似文献
73.
74.
低密度校验码是一类能有效逼近香农限的好码,而高进制的LDPC码具有比二进制LDPC码更好的性能,但其译码复杂度太高不利于工程应用。本文提出了一种基于协同优化算法的低复杂度的高进制LDPC码的译码算法,并讨论了其在深空通信中的应用。 相似文献
75.
Andrea D’Ambrosio Dario Spiller Fabio Curti 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(11):3462-3477
The development of fast and reliable optimization algorithms is required in order to obtain real-time optimal trajectory on-board spacecraft. In addition, the wide spread of small satellites, due to their low costs, is leading to a greater number of satellite formations in space. This paper presents an Improved version of the Magnetic Charged System Search (IMCSS) metaheuristic algorithm to compute time-suboptimal manoeuvres for satellite formation flying. The proposed algorithm exploits some strategies aimed at improving the convergence to the optimum, such as the chaotic local search and the boundary handling technique, and it is able to self-tune its internal parameters and coefficients. Moreover, the inverse dynamics technique and the differential flatness approach, through the B-splines curves, are used to approximate the trajectory. The optimization procedure is applied to the circular J2 relative model developed by Schweighart and Sedwick and to the elliptical relative motion model developed by Yamanaka and Ankersen. The results of this paper show that the convergence is better achieved by using the proposed tools, thus proving the efficiency and reliability of the algorithm in solving some space engineering problems. 相似文献
76.
New energy sources such as solar energy and hydrogen energy have been applied to the Unmanned Aerial Vehicle(UAV), which could be formed as the hybrid power sources due to the requirement of miniaturization, lightweight, and environmental protection issue for UAV. Hybrid electrical propulsion technology has been used in UAV and it further enforces this trend for the evolution to the Hybrid-Powered System(HPS). In order to realize long endurance flight mission and improve the energy efficiency of UAV, many researching works are focused on the Energy Management Strategy(EMS) of the HPS with digital simulation, ground demonstration platforms and a few flight tests for the UAV in recent years. energy management strategy, in which off-line or on-line control algorithms acted as the core part, could optimize dynamic electrical power distribution further and directly affect the efficiency and fuel economy of hybrid-powered system onboard.In order to give the guideline for this emerging technology for UAV, this paper presents a review of the topic highlighting energy optimal management strategies of UAV. The characteristics of typical new energy sources applied in UAV are summarized firstly, and then the classification and analysis of the architecture for hybrid power systems in UAV are presented. In the context of new energy sources and configuration of energy system, a comprehensive comparison and analysis for the state of art of EMS are presented, and the various levels of complexity and accuracy of EMS are considered in terms of real time, computational burden and optimization performance based on the optimal control and operational modes of UAV. Finally, the tendency and challenges of energy management strategy applied to the UAV have been forecasted. 相似文献
77.
针对跨声速涡轮叶栅单点优化方法难以获得整体工况性能提升、多点优化方法难以确定合理目标函数形式的问题,提出了两点优化的方法。为了节约优化时间成本,优化过程采用EIF (Equivalent inviscid flow) 模型进行数值模拟,通过添加惩罚函数保证叶栅满足设计流量和负荷要求,并采用叶栅效率线性平均的目标函数形式进行评价。选择两组跨声速涡轮叶栅进行优化设计,并利用CFD方法分析叶型变化对流场马赫数、激波和损失产生的影响。结果显示,所提出的优化设计方法在保证设计工况性能的同时,能够提升叶栅整体工况性能。通过流场分析,揭示了激波结构变化对不同工况损失影响的定性规律。综合全文研究后,给出了一种适用于跨声速涡轮叶栅两点优化设计的目标函数形式。 相似文献
78.
Minghui ZHANG Zhenli CHEN Zhaoguang TAN Wenting GU Dong LI Changsheng YUAN Binqian ZHANG 《中国航空学报》2019,32(8):1847-1859
Blended-Wing-Body(BWB) configuration, as an innovative transport concept, has become a worldwide research focus in the field of civil transports development. Relative to the conventional Tube-And-Wing(TAW) configuration, the BWB shows integrated benefits and serves as a most promising candidate for future ‘‘green aviation". The objective of the present work is to figure out the effects of the stability margin and Thrust Specific Fuel Consumption(TSFC) on the BWB design in the framework of Multi-Disciplinary Optimization(MDO). A physically-based platform was promoted to study the effect static stability margin and engine technology level. Low-order physically based models are applied to the evaluation of the weight and the aerodynamic performance. The modules and methods are illustrated in detail, and the validation of the methods shows feasibility and confidence for the conceptual design of BWB aircrafts. In order to find out the relation between planform changes and the selection of stability and engine technology level, two sets of optimizations are conducted separately. The study proves that these two factors have dominant effects towards the optimized BWB designs in both aerodynamic shapes, weight distribution, which needs to be considered during the MDO design process. A balance diagram analysis is applied to find out a reasonable static stability margin range. It can be concluded that a recommended stability margin of a practical BWB commercial aircraft can be half of that of a conventional TAW design. 相似文献
79.
80.
通过对影响备分因素的分析,以费用和可靠性指标为参数,从系统观点出发,建立了模块化功能组件备分优化模型,并给出一种算法。 相似文献