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941.
微波能量传输技术作为空间太阳能电站(SpaceSolarPowerStation,SSPS)的关键技术之一,目前的研究和验证工作均集中在各单项技术的突破和验证,缺乏针对SSPS系统特点的全面优化设计。文章根据SSPS的工作模式给出了全面验证空间太阳能电站微波能量传输的验证系统方案设计,对收发天线进行了一体化设计,利用了幅度近似高斯分布的发射阵列场分布设计和低反射的接收整流阵列设计,以高精度来波方向测量和高精度移相控制为波束指向控制的技术途径。对验证系统的波束收集效率进行了分析,收集效率可达94.2%,比传统均匀分布系统高出17.6%。验证系统可从系统规模缩比、波束扫描范围、发射天线口径场分布、整流天线处功率密度、反向波束控制方法等方面模拟SSPS微波能量传输工作模式,推动SSPS系统技术的发展。 相似文献
942.
面向空间太阳能电站应用,进行了固态体制微波能量传输技术研究。针对能量传输波束扩散导致收集效率低的问题,研究了基于人工媒质理论设计的完美匹配层的能量接收整流表面,通过调节人工媒质单元的结构参数实现天线输出阻抗与整流电路输入阻抗的共轭匹配,同时抑制整流电路高次谐波,省去原有匹配及低通滤波器,简化电路结构、实现高效微波能量吸收与转换。以空间太阳能电站规定的波束中心传输微波功率密度限制作为能量接收整流表面设计的约束条件,设计能量接收整流表面,结合固态体制微波能量发射端,搭建5.8GHz小规模微波能量传输系统开展了地面试验验证,实测结果显示整流表面能量转换效率最高为57.7%。此次试验验证了先进的固态能量传输试验系统,为空间太阳能地面缩比试验及未来空间太阳能电站的建设提供了技术支撑。 相似文献
943.
星敏感器瞬态效应仿真及抗干扰算法 《空间控制技术与应用》2017,43(4):25-30
分析星敏感器在南大西洋异常区(south atlantic anomaly,SAA)工作异常的机理,建立空间粒子干扰仿真模型;并在此基础上,提出星点甄别和帧间比对两种抗空间粒子干扰算法.仿真结果表明,SAA环境下采用改进后的算法,星敏感器在捕获和跟踪模式下其识别成功率高、耗时少,空间辐射环境适用性较强. 相似文献
944.
945.
王佩 《民用飞机设计与研究》2018,(4):36
以波音787飞机为例,对多电飞机环控系统组成和原理进行介绍,探讨高速电机驱动的可行性及控制方式。该文采用高速永磁同步电机(Permanent Magnet Synchronous Motor,以下简称PMSM)驱动压气机,同时利用SVPWM(Space Vector Pulse Width Modulation,以下简称SVPWM)技术进行控制,设计了双环控制策略,建立完整的高速电机驱动压气机系统,并利用Matlab/Simulink软件对闭环系统进行建模仿真。仿真结果表明该系统功能完善、稳定性强。 相似文献
946.
对5229D/T700导电环氧复合材料力学、电学、耐热特性进行了系统表征,通过真空出气、温度循环和总剂量辐照等环境试验考察了5229D/T700导电环氧复合材料空间环境适应性。结果表明,5229D/T700导电环氧复合材料Tg为236℃,150℃弯曲强度保持率为85%,150℃真空总质损为0.44%,可凝挥发物为0.05%,具有很好耐热性和极低的真空污染特性。同时发现5229D/T700导电环氧复合材料力学性能几乎不受温度循环和总剂量辐照的影响,而电性能在总剂量辐照试验后略有增加,表现出非常优异空间环境适应性。 相似文献
947.
M. Murawiecka A. Lemaitre 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(3):935-940
The Yarkovsky-Schach effect is a small perturbation affecting Earth satellites and space debris illuminated by the Sun. It was first applied to the orbit of LAGEOS satellites as an explanation of the residuals in orbital elements. In this work, we carry out several numerical integration tests taking into consideration various orbit and rotation parameters, in order to analyse this effect in a broader context. The semi-major axis variations remain small and depend on the spin axis attitude with respect to the Sun. We show that the force amplitude is maximised for orbits inclined with ?20–30°. We also observe the influence on other orbital elements, notably on the orbit inclination. However, these effects are clearly observed only on long timescales; in our simulations, we propagated the orbits for 200?y. The Yarkovsky-Schach effect is thus confirmed to have a minuscule magnitude. It should be taken into account in studies requiring high-precision orbit determination, or on expanded timescales. 相似文献
948.
Roberto Armellin Juan F. San-Juan 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(4):1097-1120
Nowadays there is international consensus that space activities must be managed to minimize debris generation and risk. The paper presents a method for the end-of-life (EoL) disposal of spacecraft in Medium Earth Orbit (MEO). The problem is formulated as a multiobjective optimisation one, which is solved with an evolutionary algorithm. An impulsive manoeuvre is optimised to reenter the spacecraft in Earth’s atmosphere within 100?years. Pareto optimal solutions are obtained using the manoeuvre and the time-to-reentry as objective functions to be minimised. To explore at the best the search space a semi-analytical orbit propagator, which can propagate an orbit for 100?years in few seconds, is adopted. An in-depth analysis of the results is carried out to understand the conditions leading to a fast reentry with minimum propellant. For this aim a new way of representing the disposal solutions is introduced. With a single 2D plot we are able to fully describe the time evolution of all the relevant orbital parameters as well as identify the conditions that enables the eccentricity build-up. The EoL disposal of the Galileo constellation is used as test case. 相似文献
949.
Karim Douch Hu Wu Christian Schubert Jürgen Müller Franck Pereira dos Santos 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(5):1307-1323
The prospects of future satellite gravimetry missions to sustain a continuous and improved observation of the gravitational field have stimulated studies of new concepts of space inertial sensors with potentially improved precision and stability. This is in particular the case for cold-atom interferometry (CAI) gradiometry which is the object of this paper. The performance of a specific CAI gradiometer design is studied here in terms of quality of the recovered gravity field through a closed-loop numerical simulation of the measurement and processing workflow. First we show that mapping the time-variable field on a monthly basis would require a noise level below . The mission scenarios are therefore focused on the static field, like GOCE. Second, the stringent requirement on the angular velocity of a one-arm gradiometer, which must not exceed ?rad/s, leads to two possible modes of operation of the CAI gradiometer: the nadir and the quasi-inertial mode. In the nadir mode, which corresponds to the usual Earth-pointing satellite attitude, only the gradient , along the cross-track direction, is measured. In the quasi-inertial mode, the satellite attitude is approximately constant in the inertial reference frame and the 3 diagonal gradients and are measured. Both modes are successively simulated for a 239?km altitude orbit and the error on the recovered gravity models eventually compared to GOCE solutions. We conclude that for the specific CAI gradiometer design assumed in this paper, only the quasi-inertial mode scenario would be able to significantly outperform GOCE results at the cost of technically challenging requirements on the orbit and attitude control. 相似文献
950.
Victor U.J. Nwankwo Sandip K. Chakrabarti 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(7):1880-1889
We study the effects of space weather on the ionosphere and low Earth orbit (LEO) satellites’ orbital trajectory in equatorial, low- and mid-latitude (EQL, LLT and MLT) regions during (and around) the notable storms of October/November, 2003. We briefly review space weather effects on the thermosphere and ionosphere to demonstrate that such effects are also latitude-dependent and well established. Following the review we simulate the trend in variation of satellite’s orbital radius (r), mean height (h) and orbit decay rate (ODR) during 15 October–14 November 2003 in EQL, LLT and MLT. Nominal atmospheric drag on LEO satellite is usually enhanced by space weather or solar-induced variations in thermospheric temperature and density profile. To separate nominal orbit decay from solar-induced accelerated orbit decay, we compute and ODR in three regimes viz. (i) excluding solar indices (or effect), where and (ii) with mean value of solar indices for the interval, where and and (iii) with actual daily values of solar indices for the interval ( and ODR). For a typical LEO satellite at h?=?450?km, we show that the total decay in r during the period is about 4.20?km, 3.90?km and 3.20?km in EQL, LLT and MLT respectively; the respective nominal decay () is 0.40?km, 0.34?km and 0.22?km, while solar-induced orbital decay () is about 3.80?km, 3.55?km and 2.95?km. h also varied in like manner. The respective nominal is about 13.5?m/day, 11.2?m/day and 7.2?m/day, while solar-induced is about 124.3?m/day, 116.9?m/day and 97.3?m/day. We also show that severe geomagnetic storms can increase ODR by up to 117% (from daily mean value). However, the extent of space weather effects on LEO Satellite’s trajectory significantly depends on the ballistic co-efficient and orbit of the satellite, and phase of solar cycles, intensity and duration of driving (or influencing) solar event. 相似文献