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91.
Validation of a Compression Mass Gauge using ground tests for liquid propellant mass measurements 总被引:1,自引:0,他引:1
Juan Fu Xiaoqian Chen Yiyong Huang Xiaolong Li 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2014
To properly estimate orbital lifetimes and predict the maneuverability of spacecraft, the remaining liquid propellant mass must be accurately known at every moment of a space mission. This paper studies the Compression Mass Gauge (CMG) method to determine the mass of liquid contained in a tank in a low-gravity environment with high accuracy. CMG is a thermodynamic method used to determine the quantity of liquid by measuring the gas pressure change when the tank volume changes, and has been previously theoretically and experimentally studied by researchers. The primary objective of this investigation is to explore the effects of attitude disturbance and the spacecraft thermal environment on the accuracy of the method. A ground test system, consisting of several test apparatuses, was fabricated and described as part of this study. The test results and analyses indicate that the CMG performs well and has an accuracy of ±1%. Additionally, demonstrations were performed to show that measurement errors do not increase drastically or exceed ±1% when the test system is vibrated to simulate the tank being perturbed as a result of an attitude disturbance. Liquid sloshing resonance was found to have a significant effect on the gauging accuracy. Measurements in a real thermal environment in which heat transfers into and out of the propellant tank were also conducted. The results show that the gauging accuracy is acceptable for normal liquid propellant. Furthermore, theoretical research shows that heat leakage has a significant influence on cryogenic propellant mass gauging. 相似文献
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93.
为了完成航天员的出舱活动任务,必须建设可以验证航天员出舱活动适应性的地面试验设备。文章描述了航天员出舱活动地面试验设备的系统构成、性能指标以及实现方法,给出了航天员出舱活动试验过程的实际过程曲线。试验结果表明:该地面试验设备可以满足航天员出舱活动试验任务的要求,拓宽了空间环境地面试验的领域范围,提升了空间环境地面模拟的能力,并为后续有人参与的空间环境地面试验提供了能力保证。 相似文献
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B. Nikutowski R. Brunner Ch. Erhardt St. Knecht G. Schmidtke 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2011
In the field of terrestrial climatology the continuous monitoring of the solar irradiance with highest possible accuracy is an important goal. SolACES as a part of the ESA mission SOLAR on the ISS is measuring the short-wavelength solar EUV irradiance from 16–150 nm. This data will be made available to the scientific community to investigate the impact of the solar irradiance variability on the Earth’s climate as well as the thermospheric/ionospheric interactions that are pursued in the TIGER program. Since the successful launch with the shuttle mission STS-122 on February 7th, 2008, SolACES initially recorded the low EUV irradiance during the extended solar activity minimum. Thereafter it has been observing the EUV irradiance during the increasing solar activity with enhanced intensity and changing spectral composition. SolACES consists of three grazing incidence planar grating spectrometers. In addition there are two three-signal ionisation chambers, each with exchangeable band-pass filters to determine the absolute EUV fluxes repeatedly during the mission. One important problem of space-borne instrumentation recording the solar EUV irradiance is the degradation of the spectrometer sensitivity. The two double ionisation chambers of SolACES, which could be re-filled with three different gases for each recording, allow the recalibration of the efficiencies of the three SolACES spectrometers from time to time. 相似文献
96.
空间科学实验地面支持系统平台 总被引:1,自引:0,他引:1
相对于其他空间任务, 空间科学实验具有用户分散、实验进程控制 (遥科学实验)要求实时或准实时、多种类型空间科学数据处理要求等特点. 针对空间科学实验的特点和对地面支持系统的要求, 结合实践八号卫星(SJ-8)、探测双星(TC-1, TC-2) 和神舟系列飞船(SZ) 的空间科学实验地面支持系统的任务完成情况, 以及未来空间科学实验任务的需求, 提出了地面支持系统平台的构架设想. 该系统平台支持空间科学实验的状态监视与控制, 支持遥科学实验, 能够支持空间科学实验数据标准产品的定制处理, 满足空间科学实验多任务的要求, 具有通用性和可扩展性. 相似文献
97.
G. Souvatzoglou H. Mavromichalaki C. Sarlanis G. Mariatos A. Belov E. Eroshenko V. Yanke 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2009
Within the last years, a real-time system to monitor high energy cosmic rays for space weather use has been operated at Athens cosmic ray station. Neutron monitors and satellite high resolution data in real time are used, making it possible to observe cosmic rays in dual energy range observations. In large solar energetic particle (SEP) events, ground level enhancement (GLE) can provide the earliest alert for the onset of the SEP event. This system watches for count rate increases recorded in real time by 23 neutron monitors, which triggers an alarm if a ground level enhancement (GLE) of cosmic ray intensity is detected. 相似文献
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99.
胡晖 《南昌航空工业学院学报》2001,15(4):81-82
结合实际工程特点,对强夯块石墩复合地基进行分析探讨,且对它的设计、施工、检测等作了较详细的介绍。 相似文献
100.
孟庆磊 《中国民航飞行学院学报》2014,25(5):37-40
利用全球预报系统GFS(Global Forecast System)数值预报资料对2012年11月21日西南地区高原机场一次地面阵性大风天气过程进行预报和分析。对比预报和实况,结果表明:GFS数值预报产品对云南地区高原机场的阵风发生区域、影响时段和持续时间有较好的预报效果;对藏区的拉萨和康定机场强阵风发生情况也有一定的预报效果;但对阵风的极大值有着不同程度的误差。 相似文献