动力装置

  • 网络POWER PLANT;power device;powerplant;codag;AIP
动力装置动力装置
  1. 柴-柴联合动力装置(CODAD)是其中一种形式,指两台或多台柴油机并车共同工作。

    Combined of diesel and diesel power plant ( CODAD ) is one of these kinds of plant . It means that a power plant combine with two or more diesel engines and working in parallel .

  2. 基于遗传算法的船舶核动力装置冷凝器故障诊断研究

    Study on fault diagnosis of condenser of marine nuclear power plant based on genetic algorithm

  3. 基于PC平台的小型核动力装置仿真系统

    Nuclear Power Device Simulation System Based on PC Platform

  4. 基于Script交互控制的船用核动力装置虚拟维修研究

    Study on the VR maintenance of marine nuclear power plant based-on script language interaction control

  5. 北京环保游船LPG动力装置的研制

    Development of LPG Powerplant Purposed for Beijing Green Pleasure Boats

  6. 为LPG动力装置的船用化作了很有意义的探索。

    It is a significant approach to LPG powerplants for marine application .

  7. 文中以某船舶动力装置监控系统为实例,介绍了基于Visualc++的监控程序的设计过程以及监控系统的组成。

    This paper introduces design process and composition of monitoring-controlling system based on Visual C + + with a practical instance for ship power plant .

  8. JSF战机动力装置研制新特点浅析

    Analysis on the New Features in JSF Powerplant Development

  9. 基于Creator和VRML/Java的核动力装置虚拟仿真技术研究

    Virtual simulation technique of the nuclear power equipment based on Creator and VRML / Java

  10. GT在全国海船船员动力装置操作评估中的应用研究

    GT Application to the National Assessment of Seafarers Operating Marine Powered Equipment

  11. 运用概化理论(GT),采用5个单侧面交叉设计(OnefacetCrossedDesign),即:p×r,对全国海船船员动力装置操作评估5个评分要素测评精度进行了探讨。

    Generalizability Theory ( GT ) was applied to explore the accuracy and reliability of the assessment of seafarers ' operating marine powered equipment .

  12. CentumCS系统在动力装置的应用及故障处理

    Application of CENTUM CS system in power equipment and troubleshooting

  13. 蒸汽发生器(SteamGenerator简称SG),作为核动力装置中一、二回路之间的连接枢纽,是核电站的关键设备,也是核动力装置运行中发生故障最多的设备之一。

    Steam Generator , as the hinge linking the primary and secondary circuits in nuclear-power device , is one of the easing-broken devices .

  14. 基于Fluent通信车加装气动发电机组储气罐的建模与仿真喷气动力装置;喷气发电机组;喷气功率单位

    Modeling and simulation of communication vehicles to install air storage tank of compressed-air generating sets based on Fluent air-breathing power unit

  15. 相变材料(PCM)容器是空间太阳能动力装置吸热&储热器的关键部件。

    Container of Phase Change Material ( PCM ) is a key part of heat receiver in space solar dynamic power system .

  16. 本文论述了JC型磁化节油器在船舶动力装置上应用的可行性及其对船舶动力性能与经济性的影响。

    This article presents a feasibility study of applying the type JC fuel-saving magnetizer to marine power installation .

  17. 柴柴动力装置(CODAD)控制策略研究及齿轮箱优化设计

    Control tactics of CODAD and optimum design of gear case

  18. 脉冲爆震发动机(PDE,Pulsedetonationengine)是一种基于爆震燃烧的新概念推进系统,被广泛认为是21世纪最有发展意义的革命性航空航天动力装置之一。

    As a new concept propulsion system , pulse detonation engine which is based on detonation combustion is widely considered to be one of the most development meaning aeronautics and astronautics engines in the 21st Century .

  19. 作者通过蒸汽轮机动力装置在LNG船上的应用及选型分析,对未来新一代LNG船推进装置的发展趋势进行展望。

    With analysis of implement and type selection for steam turbine power supply on LNG ship , the authors forecast the development of new-generation propulsion equipment for LNG ship in future .

  20. 本文以内部模型控制(IMC)算法为出发点,阐述了航机陆用动力装置的控制系统的设计方法。

    A design technique of control system of aircraft power plant used for ground installations is presented in this paper on the basis of internal model control ( IMC ) algorithmic approach .

  21. 本文利用Visualc++建立了基于模糊BP网络的核动力装置凝汽器故障诊断专家系统,该故障诊断专家系统采用人机交互界面,具有界面友好,操作简单等特点。

    With Visual C + + , an expert system for the condenser fault diagnosis in a nuclear power installation was constructed based on fuzzy back-propagation neural network . The expert system for the condenser fault diagnosis adopt mutual interface between man and computer , interface is friendly and simple .

  22. 在我校原CODOG实验台基础上,完成了CODAG柴燃联合动力装置物理模拟实验台架的设计搭建工作。

    Base on the quondam CODOG experiment plant , the designing and constructing work of CODAG physics simulant experiment plant was completed .

  23. 载重量3500t化学品船动力装置设计

    Design of Ship Power Plant for 3500 DWT Chemical Tanker

  24. 研究CODAG柴燃联合动力装置对我国舰船动力的发展有着重要意义。

    It has very important meaning for the developing of the warship power plant in our country that researching on the CODAG power plant .

  25. 本文为未来核动力装置PSA作了大量前期准备工作,为船用核动力的概率风险分析奠定了基础,本文中的一些建故障树的分析方法也可用于其它领域的故障树分析中。

    In this thesis , there are a lot of work have been done for the future use of PSA in the marine nuclear power system , some methods of Fault-tree analysis in this thesis also can be used in other fields .

  26. 对不依赖空气动力装置(AIP)系统不锈钢波纹丝网填料旋转床吸收器在气液两相逆流条件下的气相压力降特性进行了分析,建立了压力降预报理论模型。

    The characteristics of pressure drop of wire packing rotating packed bed absorber in air independent propulsion ( AIP ) system are analyzed under counter-current condition and the model of pressure drop is built .

  27. 以船舶核动力装置中广泛使用的立式U形管自然循环蒸汽发生器为对象,从其热工水力特点分析出发,建立蒸汽发生器的动态模型,并对其运行模拟及应用进行了研究。

    This paper is based on a vertical U-tube natural circulation steam generator , which is widely used in marine nuclear power plants . Starting from analyzing thermal hydraulic characteristics , a new dynamic model of steam generator is established , and its operating simulation and application are studied .

  28. 新的教练机保留JJ-7翼面和动力装置,但是重新设计采用侧进气道的前机身和装上空中加油探头。

    The new trainer retained the wing planform and powerplant of the JJ-7 , but was given a redesigned forward fuselage with lateral air intakes and the in-flight refuelling probe .

  29. 简要介绍空间动力装置的分类及其特点,重点分析和讨论新型空间动力装置&微波等离子推进器(MPT)的基本原理、结构特征和应用前景。

    Classifications and characteristics of propulsion system for space are briefly introduced and the primary principle , configuration feature , utility prospect of a new space propulsion system & microwave plasma thruster ( MPT ) are mainly analyzed and discussed in this paper .

  30. 不依赖空气推进装置(AIP)是常规潜艇极有前景的动力装置,它可以降低常规潜艇的通气管暴露率,从而提高常规潜艇的生存能力以及战术灵活性,进而提高其战斗力。

    The air independent propulsion system ( AIP ) is of significance for the modern conventional submarine propulsion systems . It can improve the battle effectiveness of the submarine via reducing the exposure ratio and improving the viability and agility of the tactics .