提高同位素测量航空燃油密度精度的方法研究

在介绍利用同位素放射性原理测量航空燃油密度的机理及测量系统构成的基础上,针对测量中出现的同位素射线初始强度发生波动对测量结果造成干扰的现象,提出了2种解决方法(测量结果修正方法和双探测器差动测量方法),并从原理上论述了利用这2种方法提高同位素航空燃油测量系统抗干扰性能和测量精度的可行性.      

陕西省县域经济发展浅探

党的十六大提出"壮大县域经济"以来,县域经济作为社会经济一种新的发展模式已受到社会各界越来越多的关注.发展壮大县域经济,增强县城经济活力和竞争力,也是陕西省目前经济发展的重要任务之一.通过对陕西省县域经济现状的阐述,指出了存在的问题,提出了强化特色意识、环境意识、开放意识和推进"三化"进程等发展壮大陕西省县域经济的建议和措施.     

Using high-energy proton fluence to improve risk prediction for consequences of solar particle events

The potential for exposure to large solar particle events (SPEs) with high energy levels is a major concern during interplanetary transfer and extra-vehicular activities (EVAs) on the lunar and Mars surface. Previously, we have used data from the last 5 solar cycles to estimate percentiles of dose to a typical blood-forming organ (BFO) for a hypothetical astronaut in a nominally shielded spacecraft during a 120-d lunar mission. As part of this process, we made use of complete energy spectra for 34 large historical SPEs to calculate what the BFO mGy-Eq dose would have been in the above lunar scenario for each SPE. From these calculated doses, we then developed a prediction model for BFO dose based solely on an assumed value of integrated fluence above 30 MeV (Φ₃₀) for an otherwise unspecified future SPE. In this study, we reasoned that since BFO dose is determined more by protons with higher energies than by those with lower energies, more accurate BFO dose prediction models could be developed using integrated fluence above 60 (Φ₆₀) and above 100 MeV (Φ₁₀₀) as predictors instead of Φ₃₀. However to calculate the unconditional probability of a BFO dose exceeding a pre-specified limit (“BFO dose risk”), one must also take into account the distribution of the predictor (Φ_30,Φ₆₀, or Φ₁₀₀), as estimated from historical SPEs. But Φ₆₀ and Φ₁₀₀ have more variability, and less available historical information on which to estimate their distributions over many SPE occurrences, than does Φ₃₀. Therefore, when estimating BFO dose risk there is a tradeoff between increased BFO dose prediction at a given energy threshold and decreased accuracy of models for describing the distribution of that threshold over future SPEs as the threshold increases. Even when taking the second of these two factors into account, we still arrived at the conclusion that overall prediction improves as the energy level threshold increases from 30 to 60 to 100 MeV. These results can be applied to the development of approaches to improve radiation protection of astronauts and the optimization of mission planning for future space missions.     

基于数字水印的多媒体教学资源版权保护的研究

针对视频、音频、电子课件等多媒体教学资源亟待解决的版权保护问题,提出一种新的基于数字水印技术的解决方案。并结合目前教学资源管理系统的结构进行实践性的探索,得出一种系统解决教学资源版权保护的技术方法。     

Interstellar planetary protection

In the coming decades the detection of Earth-like extrasolar planets, either apparently lifeless or exhibiting spectral signatures of life, will encourage design studies for craft to visit them. These missions will require the elaboration of an interstellar planetary protection protocol. Given a specific dose required to sterilize microorganisms on a spacecraft, a critical mean velocity can be determined below which a craft becomes self-sterilizing. This velocity is calculated to be below velocities previously projected for interstellar missions, suggesting that an active sterilization protocol prior to launch might be required. Given uncertainties in the surface conditions of a destination extrasolar planet, particularly at microscopic scales, the potential for unknown biochemistries and biologies elsewhere, or the possible inoculation of a lifeless planet that is habitable, then both lander and orbiter interstellar missions should be completely free of all viable organisms, necessitating a planetary protection approach applied to orbiters and landers bound for star systems with unknown local conditions for habitability. I discuss the case of existing craft on interstellar trajectories – Pioneer 10, 11 and Voyager 1 and 2.     

名城文化误区与政府文化观

当前历史名城的保护和建设中,出现了不少文化误区,表现为“泛文化”、“狭文化”、“假文化”、“死文化”、“功利文化”以及文化的“泛产业化”和非特色化,等等。产生这些误区的原因不仅仅是政府利益和政绩观、发展观产生偏差,政府文化观的缺失与错位才是问题产生的根源,因此,只有培养正确的文化观和体制改革双管齐下,才能更好地保护和传承名城文化,避免借保护之名行破坏之实的行为。     

KM6水平舱消防灭火系统介绍

消防灭火系统是KM6水平舱的重要组成系统之一。由于舱内环境的特殊性,使得该系统不同于普通的消防灭火系统。针对KM6水平舱舱内的特殊环境,本文章分析了消防灭火系统的关键问题,提出了解决的具体方案,结合目前国际上先进的消防灭火技术,设计提出了适合KM6水平舱特殊环境的消防灭火系统具体方案。系统经过调试后表明:该系统设计理念先进,能很好的地满足水平舱“人-船-服”联合试验的需要。     

运载火箭尾段防热/承载一体化热防护系统设计及性能分析

先进热防护技术是可重复使用运载火箭研制的关键技术之一,具有高结构效率的防热/承载一体化热防护系统是运载火箭极具潜力的备选热防护方案。本文系统地总结了可重复使用运载火箭尾舱段防热和承载两方面的设计要求,设计了一种全复合材料防隔热/承载一体化热防护系统。开展了运载火箭尾段一体化热防护系统设计,进行了代表性单胞结构的高温环境地面试验,揭示了复合材料一体化热防护系统的防隔热机理。同时施加力学和热流载荷,利用有限元方法对运载火箭尾段进行了热力耦合分析,获得了尾段结构的温度场、应变场和应力场。结果表明:在典型载荷工况下一体化热防护系统内壁温度保持在89.2℃以下,内部最大应力不超过9.53 MPa,安全系数达到1.89。     

一种未来大型天地往返运输系统平台气动方案

针对未来低运行成本、可直接水平起降、重复使用的大型天地往返运输系统平台飞行器研制所需重点解决的全速域气动力性能需求与气动热防护匹配等难题,分析了典型航天飞机方案所存在的能量运行缺陷等主要问题及可能的改善方案。基于放宽气动热防护设计、涡轮/冲压/火箭发动机三动力组合、嵌套式旋转机翼全速域变体、在爬升阶段将飞行动能转化为高度势能以及再入阶段“跳跃式”盘旋减速飞行轨迹控制等设计思想,从能量损失速率控制和回收利用等角度出发,开展了一种新型大型天地往返运输系统平台气动布局概念设计研究。全速域气动力/热性能工程估算以及内/外流整体气动效能初步分析结果表明,该方案可有效满足整个飞行包线内的升重平衡需求,相比航天飞机方案具有显著的整体气动效能优势,值得进一步开展深入研究。     

哥伦布航天器对轨道碎片撞击危害的设计考虑

简要介绍了欧洲空间局在执行哥伦布计划期间，在载人压力舱和有人照料的自由飞行器的设计阶段。对微流量和轨道碎片撞击危害的防护研究方面所做的主要工作。