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排序方式: 共有417条查询结果,搜索用时 468 毫秒
411.
412.
为研究压缩空气储能系统的向心涡轮启动过程内部流动损失特性,本文采用全三维计算流体动力学(CFD)模型对其启动过程过程进行了数值模拟,与实验结果对比表明,虽然该模型在启动初始阶段与转速稳定阶段存在一定误差,但仍能够整体上反映启动过程的效率变化特征。在此基础上,进一步分析了启动过程中动叶通道内损失区及流场变化特征,结果发现,动叶进口攻角是影响内部流场主要因素:在启动初始阶段,叶轮进口攻角较大,动叶载荷集中在叶片前缘,形成明显的通道分离涡与前缘涡;在快速启动段,攻角减小,动叶载荷沿弦长分布更为均匀,通道分离涡及前缘涡逐渐减小并向叶片吸力面迁移。在整个启动阶段,动叶通道内高损失区也随着通道分离涡逐渐迁移且变小,并向相邻叶片吸力面集中。 相似文献
413.
基于飞行-推力一体化思想提出了一种针对搭载超燃冲压发动机的吸气式高超声速飞行器速度通道的状态/输入约束自适应鲁棒保性能安全控制方案。首先根据超燃冲压发动机的机理分析与计算流体动力模型数据,建立了安全子系统与性能子系统面向控制的仿射非线性模型。之后基于障碍Lyapunov理论与动态面设计方法设计了一套安全子系统状态约束控制器,从理论上保证了飞行器在跟踪指令的全过程中,发动机相关状态不会触碰安全边界,并结合自适应技术与辅助系统提高了该控制系统的鲁棒性。针对性能子系统设计了一套鲁棒自抗扰控制器,达到“保证安全的前提下不折损性能”的目的。仿真结果表明所设计的控制系统可以在保障安全的同时达到预想的性能,并显著放宽了超燃冲压发动机对飞行器飞行姿态的约束,保证了高超声速飞行器的机动灵活性。 相似文献
414.
为了满足变循环发动机风车起动性能仿真的需求,建立了变循环发动机部件级风车起动模型。针对旋转部件等熵效率不连续的问题,提出使用换算扭矩代替等熵效率的方法,给出了旋转部件全转速特性拓展方法。提出了考虑点火及燃烧稳定性的燃烧室稳定性模型。考虑了变循环发动机的8个可调参数,采用差分进化算法对变循环发动机的风车及风车起动性能进行了优化。结果表明,风车状态时,变循环发动机在单外涵模态具有更高的核心机物理转速,有利于点火之后核心机物理转速快速趋于其慢车值。单外涵模态时,变循环发动机在风车状态的可调参数仅与飞行马赫数有关,为了保持较高的核心机物理转速,后涵道引射器外涵面积需随飞行马赫数的增加而减少,其余参数皆固定在其最佳值。飞行高度6km、马赫数0.8时,变循环发动机在单外涵模态下的风车起动时间为1.4s。风车起动过程中燃油流量的增长主要受燃烧稳定性所约束。通过对可调参数的优化,可使变循环发动机在风车起动过程中的关键性能参数最大程度的逼近其限制值,从而减少风车起动时间。 相似文献
415.
《中国航空学报》2022,35(9):81-94
Aerial access networks have been envisioned as a promising 6G solution to enhance the ground communication systems in both coverage and capacity. To better utilize the spectrum and fully explore different channel characteristics, this paper constructs an integrated network comprising the High Altitude Platform (HAP) and Unmanned Air Vehicles (UAVs) with the Non-Orthogonal Multiple Access (NOMA) technology. In order to improve the transmission quality of images and videos, a power management scheme is proposed to minimize the distortion of the transmissions from the HAP and UAVs to the terminals. The power control is formulated as a non-convex problem constrained by the maximal transmit power and the minimal terminal rate requirements. The variable substitution and the first-order Tailor’s expansion is used to transform it into a sequence of convex problems, which are subsequently solved through the gradient projection method. Simulation demonstrates the signal distortion and error rate improvement achieved by the proposed algorithm. 相似文献
416.
《中国航空学报》2023,36(3):285-302
To improve the heat dissipation performance, this paper proposes a novel hybrid cooling method for high-speed high-power Permanent Magnet assisted Synchronous Reluctance Starter/Generator (PMaSynR S/G) in aerospace applications. The hybrid cooling structure with oil circulation in the housing, oil spray at winding ends and rotor end surface is firstly proposed for the PMaSynR S/G. Then the accurate loss calculation of the PMaSynR S/G is proposed, which includes air gap friction loss under oil spray cooling, copper loss, stator and rotor core loss, permanent magnet eddy current loss and bearing loss. The parameter sensitivity analysis of the hybrid cooling structure is proposed, while the equivalent thermal network model of the PMaSynR S/G is established considering the uneven spraying at the winding ends. Finally, the effectiveness of the proposed hybrid cooling method is demonstrated on a 40 kW/24000 r/min PMaSynR S/G experimental platform. 相似文献
417.
《中国航空学报》2022,35(12):189-199
The integrated aviation and High-Speed Railway (HSR) transportation system plays a vital role for today’s inter-city transportation services. However, an increasing number of unexpected disruptions (such as operation failures, natural disasters, or intentional attacks) pose a considerable threat to the normal operation of the system, especially on ground transfer, leading to the extensive research on its vulnerability. Previous approaches mainly focus on interruptions within a single transportation mode, neglecting the role of ground transfer which serves as a coupled connection between aviation and High-Speed Railway. This paper proposes a network-based framework for evaluating the vulnerability of the Chinese Coupled Aviation and High-Speed Railway (CAHSR) network from the viewpoint of ground transfer interruption. Taking the end-to-end travel time and passenger flow information into consideration as an evaluation measure and analyzing from the perspective of urban agglomerations, an adaptive method is developed to identify the critical cities and further investigate their failure impacts on the geographic distribution of vulnerability. In addition, the proposed model explores variations of vulnerability under different failure time intervals. Based on the empirical study, some major conclusions are highlighted as follows: (A) Only a few cities show significant impacts on the network’s vulnerability when ground transfer interruptions occurred. (B) The distribution of vulnerability is not proportional to the distance between failure city and influenced city. (C) The vulnerability is more serious in the morning and evening when the ground transfer is disconnected. Our findings may provide new insights for maintenance and optimization of the CAHSR network and other real-world transportation networks. 相似文献