平流层飞艇的环境控制

文章叙述了平流层飞艇要经历的对流层和平流层的环境特点,对平流层飞艇的环境控制进行了分析,并提出了环境控制的几个注意问题。     

平流层飞艇控制与推进技术

飞艇作为平流层平台可以实现无线通信、空间观测、大气测量以及军事侦察等目的。本文主要结合平流层的环境特点对平流层飞艇动力推进系统的组成和概念进行初步分析,并对飞艇在升空、浮空、回收过程中的飞行控制策略进行探讨,同时简要分析了控制系统的组成、控制难点和飞艇应急控制问题。     

A comparative and numerical study of effects of gravity waves in small miss-distance and miss-time GPS radio occultation temperature profiles

The Global Positioning System (GPS) Radio Occultation (RO) technique has global coverage and is capable of generating high vertical resolution temperature profiles of the upper troposphere and lower stratosphere with sub-Kelvin accuracy and long-term stability, regardless of weather conditions. In this work, we take advantage of the anomalously high density of occultation events at the eastern side of the highest Andes Mountains during the initial mission months of COSMIC (Constellation Observing System for Meteorology, Ionosphere and Climate). This region is well-known for its high wave activity. We choose to study two pairs of GPS RO, both containing two occultations that occurred close in time and space. One pair shows significant differences between both temperature profiles. Numerical simulations with a mesoscale model were performed, in order to understand this discrepancy. It is attributed to the presence of a horizontal inhomogeneous structure caused by gravity waves.     

Temperature comparison between CHAMP radio occultation and TIMED/SABER measurements in the lower stratosphere

Global Positioning System (GPS) receiver on the CHAllenging Mini-satellite Payload (CHAMP) and the Sounding of the Atmosphere using Broadband Emission Radiometry (SABER) instrument, one of four on board the TIMED satellite, provide middle atmosphere temperature profiles by Radio Occultation (RO) and limb viewing infrared emission measurements, respectively. These temperature profiles retrieved by two different techniques in the stratosphere are compared with each other using more than 1300 correlative profiles in March, September and December 2005. The over-all mean differences averaged over 15 and 35 km are approximately −2 K and standard deviation is less than 3 K. Below 20 km of altitude, relatively small mean temperature differences ∼1 K are observed in wide latitudinal range except for June (during the SABER nighttime observation). In the middle to low latitudes, between 30°S and 30°N, the temperature difference increases with height from ∼0–1 K at 15 km, to ∼−4 K at 35 km of altitude. Large temperature differences about −4 to −6 K are observed between 60°S and 30°N and 31–35 km of altitude for all months and between 0° and 30°N below 16 km during June (nighttime).     

A neutral gas mass spectrometer to measure the chemical composition of the stratosphere

The Polar Balloon Atmospheric Composition Experiment (P-BACE) is a new generation of neutral gas mass spectrometer based on the time-of-flight principle. P-BACE is the scientific experiment on the Mars Environment Analog Platform (MEAP) flown successfully on a balloon mission in summer 2008. The MEAP mission was flown with a 334,000 m³ helium balloon in the stratosphere on a semicircular trajectory from northern Sweden around the North Pole to Canada using the summer northern hemispheric wind current. The atmospheric conditions at an atmospheric altitude of 35–40 km are remarkably similar to those on the surface of Mars and thus the balloon mission was an ideal testbed for our mass spectrometer P-BACE. Originally this instrument was designed for in situ measurements of the chemical composition of the Martian atmosphere.P-BACE has a unique mass range from 0 to 1000 amu/q with a mass resolution m/Δm (FWHM) > 1000, and the dynamic range is at least six orders of magnitude. During this experiment, the acquisition of one mass spectrum is a sum of 65,535 single spectra, recorded in a time frame of 66 s.The balloon mission lasted 5 days and had successfully demonstrated the functionality of the P-BACE instrument during flight conditions. We had recorded more than 4500 mass spectra. With little modifications, P-BACE can be used on a planetary mission for Mars, but for example also for Venus or Mercury, if placed on a satellite.     

SCIAMACHY limb measurements of NO2, BrO and OClO. Retrieval of vertical profiles: Algorithm,first results,sensitivity and comparison studies

The Scanning Imaging Absorption Spectrometer for Atmospheric Chartography (SCIAMACHY) measures scattered sun light also in limb viewing mode (i.e. tangential to Earth’s surface and its atmosphere), which allows determining vertical profiles of atmospheric trace gases. First results on the retrieval of NO₂, BrO and OClO profiles from the SCIAMACHY Limb measurements are presented and compared to independent satellite and balloon borne observations.     

Capability for ozone high-precision retrieval on JEM/SMILES observation

We estimate the capability of ozone (O₃) retrieval with the Superconducting Submillimeter-Wave Limb-Emission Sounder (SMILES) instrument attached to the Exposed Facility of the Japanese Experiment Module (JEM) on the International Space Station (ISS). SMILES carries a 4-K mechanical refrigerator to cool superconducting devices in space. Since SMILES has high sensitivity thanks to the superconducting receiver, it is expected that SMILES has ability to retrieve O₃ profiles more precisely than the previous millimeter–submillimeter limb measurements from satellites.     

平流层飞艇艇身外形研究

为了完成特定的任务,平流层飞艇需要克服风场保持长期定点,因此要求其阻力最小。飞艇总阻力中艇身阻力占60-70%,因此对飞艇而言,针对艇身外形进行研究得到阻力小而且实际可用的外形是非常重要。本文采用势流-边界层耦合方法与混合遗传算法对平流层飞艇艇身的外形进行了优化。外部势流采用在艇身表面分布点源的Hess\|Smith面元法求解,边界层计算采用积分边界层方法,阻力系数采用
Squire\|Young方法计算得到。最优外形通过由遗传算法和Nelder\|Mead单纯形法组成的混合遗传算法优化得到。通过优化分析得到了一种实际可用的优化外形,具有在湍流和层流两种流态下阻力系数都比较小的优点。     

太阳电池在平流层中的工作性能分析

近年来,临近空间受到广泛关注,多种平流层飞行器被提出,它们大多以太阳电池为 主要的能源获取装置。研究平流层的太阳电池的性能,对平流层的开发和利用具有重要意义 。首先建立了平流层中太阳电池的热环境模型,并结合硅太阳电池的电学模型,得到了 平流层中硅太阳电池的热电耦合分析模型,进而用数值模拟方法对太阳能电池的热学、电学 性能进行了分析和讨论。研究结果表明,平流层热环境的变化对太阳能电池的温度、输出功 率以及电效率都有影响。讨论了风速对太阳电池性能的影响,结果表明随着风速的增 加,太阳电池温度降低、内部温差先增加后减小、发电效率和输出功率都增加。
     

平流层飞艇热力学验证温度测量方法研究

平流层飞艇的热力学分析是平流层飞艇关键技术之一。针对热力学分析的工程验证及模型完善,提出了适合于平流层飞艇的艇囊内气体及囊体表面的温度测量方法,包括采集点的分布,传感器的选型,数据传输和处理及数据准确性评价等。经过两次平流层飞艇的缩比飞行试验,对比同艇发放的探空仪采集的温度数据,验证了该方法测量到的数据的准确性。