基于大修平台的异地抢修安全生产探究

基于航空器大修平台，对如何安全、快捷并有效地组织异地抢修工作展开探讨，总结出一套适应当前民航业新形势的多元化管控异地抢修生产组织模式。     

高阶精度方法下的湍流生成项对跨声速流动数值模拟的影响研究

利用五阶空间离散精度的WCNS格式和多块结构网格技术,通过求解雷诺平均NS方程,开展了SST两方程模型不同湍流生成项组合方式对跨声速流动数值模拟影响的计算分析。研究的主要目的是为高阶精度格式在复杂外形上的工程应用提供技术支撑。计算模型采用了RAE2822超临界翼型和DLR-F6翼身组合体构型。研究内容主要包括不同湍流生成项对残差收敛历程、边界层湍流粘性系数分布、边界层速度分布、压力系数分布以及模型整体气动力特性的影响。不同湍流生成项组合方式的流场计算结果还与风洞试验数据进行了对比。研究结果表明:对于小迎角不存在明显分离的跨声速流动,不同湍流生成项对流场的高精度计算结果的影响很小,可以不用考虑。     

马歇雷文学生产理论内涵

马歇雷作为西方马克思主义文学理论家,将意识形态与文学的关系导向深入,提出自己的文学生产观。马歇雷早期的文学生产理论,辨析意识形态虚幻与文学虚构对文学生产起到决定作用,文本意识形态的虚构能够抵制意识形态的侵入,由此形成离心结构并使症候阅读更具可操作性。后期的马歇雷转向对审美效果的分析,指出意识形态有力塑造了文学。     

对产品范畴的重新界定

生产劳动范畴的扩大，使产品的范畴也要随之发生变化。重新界定产品的范畴具有重要的意义，也是我们亟待解决的问题。从确定产品界限的三个标准入手，试图对产品的重新界定问题做些探讨。     

培育生产资料批发市场的思考

论述建立生产资料批发市场的理论依据和必要性,并就当前建立生产资料批发市场所存在的问题,结合我国实践中所取得的经验和市场经济发达的外国经验,就如何培育和完善生产资料批发市场的对策提出了建议。     

错误分析理论及错误分类

错误分析理论是二语习得中探索语言学习心理过程的重要理论和方法，它的重大贡献是明确指出了语内错误是语言学习中错误来源的主要原因。研究者对各种错误的揭示和描述不仅促进了错误分析既作为理论又作为方法的双向研究，而且对二语语言学习有重要的启示作用。     

管道清洁生产的特点和实施意义

本文介绍了石油管道施工的特点,对管道施工中的主要清洁生产问题做了阐述,指出能否更好的解决施工与环境保护之间的关系,最大限度的降低施工给环境带来的负面影响,已经成为一个管道施工企业综合竞争力的表现,是管道施工企业生长发展,可持续进步的重要前提,也是企业社会责任的充分体现。     

电子工艺与管理专业教学实践

本文介绍了学院电子工艺与管理试点专业教改的背景、依据及专业教学改革的指导思想和目标,对本专业的教育定位与培养目标、构建理论和实践课程教学体系、改革与建设等环节进行了探索和实践。     

合理优化飞机维修生产计划浅析

对飞机维修而言,不仅需要合适的维修方案,更需要恰当地安排生产计划.随着国内航空公司规模的不断扩大,机队的不断发展,生产计划的合理优化也愈加突显其重要性.本文通过建立生产计划的优化模型,结合航空公司的实例,选取新增维修基地选址和年度C检计划优化两个方面进行简要介绍.     

Canadian advanced life support capacities and future directions

Canada began research on space-relevant biological life support systems in the early 1990s. Since that time Canadian capabilities have grown tremendously, placing Canada among the emerging leaders in biological life support systems. The rapid growth of Canadian expertise has been the result of several factors including a large and technically sophisticated greenhouse sector which successfully operates under challenging climatic conditions, well planned technology transfer strategies between the academic and industrial sectors, and a strong emphasis on international research collaborations. Recent activities such as Canada’s contribution of the Higher Plant Compartment of the European Space Agency’s MELiSSA Pilot Plant and the remote operation of the Arthur Clarke Mars Greenhouse in the Canadian High Arctic continue to demonstrate Canadian capabilities with direct applicability to advanced life support systems. There is also a significant latent potential within Canadian institutions and organizations with respect to directly applicable advanced life support technologies. These directly applicable research interests include such areas as horticultural management strategies (for candidate crops), growth media, food processing, water management, atmosphere management, energy management, waste management, imaging, environment sensors, thermal control, lighting systems, robotics, command and data handling, communications systems, structures, in-situ resource utilization, space analogues and mission operations. With this background and in collaboration with the Canadian aerospace industry sector, a roadmap for future life support contributions is presented here. This roadmap targets an objective of at least 50% food closure by 2050 (providing greater closure in oxygen, water recycling and carbon dioxide uptake). The Canadian advanced life support community has chosen to focus on lunar surface infrastructure and not low Earth orbit or transit systems (i.e. microgravity applications). To advance the technical readiness for the proposed lunar missions, including a lunar plant growth lander, lunar “salad machine” (i.e. small scale plant production unit) and a full scale lunar plant production system, a suite of terrestrial developments and analogue systems are proposed. As has been successfully demonstrated by past Canadian advanced life support activities, terrestrial technology transfer and the development of highly qualified personnel will serve as key outputs for Canadian advanced life support system research programs. This approach is designed to serve the Canadian greenhouse industry by developing compliance measures for mitigating environmental impact, reducing labour and energy costs as well as improving Canadian food security, safety and benefit northern/remote communities.