财务会计中的"能量守恒和转化定律"

会计对象是资金运动,而资金运动的实质是各种生产要素在企业内按一定的工艺过程在"劳动"的作用下形成产成品,最终通过市场进行交易又回到运动的起点的过程.劳动是一个自然的、社会的和劳动者本身相结合的做功过程,因此产品的形成过程,就是一个能量转化的过程.产品本身是过去劳动和现在劳动所做功的能量的凝结,交换过程是过去能量的释放,同时又从主体之外吸收能量的过程.财务会计在此过程中的作用是以其特有的方法,运用货币计量手段,按"能量守恒和转化定律"的观念,对企业内能量的转化过程进行连续的确认、计量、记录和报告.     

Coordinated adaptive beamformer over distributed antenna network

The spatial diversity of distributed network demands the individual filter to accommodate the topology of interference environment. In this paper, a type of distributed adaptive beamformer is proposed to mitigate interference over coordinated antenna arrays network. The proposed approach is formulated as generalized sidelobe canceller (GSC) structure to facilitate the convex combination of neighboring nodes’ weights, and then it is solved by unconstrained least mean square (LMS) algorithm due to simplicity. Numerical results show that the robustness and convergence rate of antenna arrays network can be significantly improved in strong interference scenario. And they also clearly illustrate that mixing vector is optimized adaptively and adjusted according to the spatial diversity of the distributed nodes which are placed in different power of received signals to interference ratio (SIR) environments.     

Heat storage and electricity generation in the Moon during the lunar night

One of the biggest challenges of the exploration of the Moon is the survival of the crew and the lunar assets during the lunar night. The environmental conditions on the lunar surface and its cycle, with long periods of darkness, make any long mission in need of specific amounts of heat and electricity to be successful. We have analyzed two different systems to produce heat and electricity on the Moon's surface. The first system consists of Thermal Wadis, sources of thermal power that can be used to supply heat to protect the exploration systems from the extreme cold during periods of darkness. Previous results showed that Wadis can supply enough heat to keep lunar devices such as rovers above their minimum operating temperature (approximately 243 K). The second system studied here is the Thermal Energy Storage (TES), which is able to run a heat engine during the lunar night to produce electricity. When the Sun is shining on the Moon's surface, the system can run the engine directly using the solar power and simultaneously heat a thermal mass. This thermal mass is used as a high temperature source to run the heat engine during the night. We present analytical and numerical calculations for the determination of an appropriate thermal mass for the TES system.     

基于小波熵理论的多性能参数产品可靠性评估方法研究

针对多性能参数复杂电子产品可靠性评估存在过程复杂、计算量大、建模困难、针对性和适用性较差的问题,提出了基于小波熵的复杂电子产品可靠性评估方法,将能量熵用于处理电子产品各监测时刻的信号,将其作为随机退化量建立了多性能参数电子产品的可靠性评估模型,给出了具体建模步骤和流程.最后以具体实例,验证了方法的有效性.     

切风模式风力发电飞行器的进展与挑战

风能是当今主流的可再生能源种类之一,目前传统风力发电机只能利用近地风能,而高空风能储量巨大且较为稳定,具有很大的开发价值及潜力。对于高空风能的利用,国际上已经制定出多种方案,部分已进行了飞行试验,而国内相关研究尚处于起步阶段。围绕高空风力发电系统(AWES)的种类和发展情况进行研究,分析了切风模式AWES的飞行原理,介绍了国外代表性的切风模式AWES项目案例,指出了切风模式AWES所包含的系留缆绳、精确控制、多功能基站以及综合优化等关键问题,为国内相关领域的后续研究提供参考。     

Review of hybrid electric powered aircraft,its conceptual design and energy management methodologies

The paper overviews the state-of-art of aircraft powered by hybrid electric propulsion systems. The research status of the design and energy management of hybrid aircraft and hybrid propulsion systems are further reviewed. The first contribution of the review is to demonstrate that, in the context of relatively underdeveloped electrical storage technologies, the study of mid-scale hybrid aircraft can contribute the most to both theoretical and practical knowledge. Meanwhile, the profits and potential drawbacks of applying hybrid propulsion to mid-scale hybrid airplanes have not been thoroughly illustrated. Secondly, as summed in the overview of design methodologies, the multi-objective optimization transcends the single-objective one. The potential of the hybrid propulsion system can be thoroughly evaluated in only one optimization run, if several objectives optimized simultaneously. Yet there are few researches covering the conceptual design of hybrid aircraft using multi-objective optimization. The review of the most popular energy management strategies discloses the third research gap—current methodologies favoured in hybrid ground vehicles do not consider the aircraft safety. Additionally, both non-causal and causal energy management are needed for performing a complicated flight mission with several sub-tasks.     

考虑相互碰撞影响的月壤颗粒运动轨迹计算方法研究

针对登月着陆器下降过程扬起月壤颗粒的运动轨迹及空间分布问题, 提出了考虑月壤颗粒发生完全弹性碰撞和非完全弹性碰撞两种情况的月壤颗粒运动轨迹计算方法. 根据质量守恒和能量守恒定律确定月壤颗粒相互碰撞后的速度, 通过羽流场与月壤颗粒的流固耦合相互迭代计算方法, 获得被扬起的月壤颗粒在羽流场和相互碰撞共同作用下随时间的运动轨迹和空间分布. 基于美国Apollo 11登月过程实测数据, 采用数值模拟对该方法进行验证. 结果表明, 考虑月壤颗粒相互碰撞的影响后, 其运动规律出现较明显的扩散趋势. 进一步考虑月壤颗粒相互碰撞引起能量损失的影响后, 月壤颗粒的扩散趋势有所减弱, 并且扬起的高度随着恢复系数的减小而降低.      

飞船跳跃式再入第一次再入能量管理方法

针对探月飞船跳跃式再入第一次再入能量管理问题,设计了一种能量管理方法。首先,采用大倾侧角再入,快速进入能量管理阶段;然后,对能量耗散速度进行控制,并预估跃起点的能量以确定飞船的跃起时机;最后,在能量管理结束后按设计指令过渡到跃起点。为检验能量管理方法的有效性及鲁棒性,基于标准轨迹法设计制导律,并进行仿真分析。仿真结果表明,该能量管理方法能改善轨迹跟踪性能,提高再入制导方法的精度和鲁棒性,并避免飞船在一次再入和二次再入过程中出现较大过载的现象。     

椭圆轨道卫星空间任意位置悬停的方法

对任务星施加持续的控制加速度,使其在飞行过程中相对于目标卫星的空间位置保持不变,即实现任意位置悬停飞行。通过对任务星与目标星的相对运行分析和重力差异补偿分析,给出了在飞行过程中任务星相对于运行在椭圆轨道上的目标星实现任意位置悬停所需的径向、切向和法向控制加速度公式。最后对典型悬停飞行过程进行了动力学仿真,并对不同悬停飞行任务的能量消耗进行了对比分析,表明在一段时间内对任务星进行轨道悬停是可行的。     

纯磁控微小卫星的姿态捕获控制研究

针对纯磁控微小卫星姿态捕获问题,提出了一种基于姿态角和姿态角速度反馈的磁
矩能量控制律。利用Matrosov定理证明了该控制律具有一致渐近稳定性,能够保证星体最终
稳定到唯一的零轨道姿态角平衡位置。结合某在研低轨纳星,分析了气动力矩作用下星体大
角度姿态捕获的纯磁控性能。仿真结果表明,所设计的能量控制律具有一致渐近稳定特性,
考虑气动力矩影响时可在一个轨道周期内完成纳星姿态捕获,控制精度较高。该控制律具有
较好的工程应用前景,对于低成本微小卫星的研制是一个有益的探索。