1) warship electromechanical equipment
舰船机电设备
1.
IETM in warship electromechanical equipment informationization support
IETM在舰船机电设备信息化保障中的应用
2) network monitoring for the mechanical and electrical equipment of warship
舰船机电设备网络监测
3) marine mechanical equipment
舰船机械设备
1.
The virtual platform for marine mechanical equipments disassembly with abroad applicability is developed here.
并研制开发了具有通用性的舰船机械设备虚拟拆卸平台。
4) ship equipment
舰船设备
1.
Experimental verification of relationship between bubble motion and shock vibration of ship equipment;
气泡运动与舰船设备冲击振动关系的试验验证
2.
In the process of building a cooperative control multi-agent system(MAS) of ship equipment,there are some certain internal conflicts and patterns among the agents.
在构建舰船设备协同控制多智能体系统(MAS)过程中,各Agent之间存在某种内在的冲突、联系和规律,为了有效地发现和消解这些问题,引入智能控制解决方案和强化学习方法,能为MAS系统的构建提供有效的技术保障。
5) shipboard equipment
舰船设备
1.
The study is conducted on the methodology for assessing the survivability of the shipboard equipments based on the theory of fuzzy comprehensive assessment.
舰船设备抗冲击性能是舰船生命力设计的重要内容。
2.
An analytical model of nonlinear shock response of shipboard equipment using shock isolator with displacement restrictor is established in this paper, and t he nonlinear shock response is calculated for the first time by the pseudo-for ce approach.
数值计算与试验结果的比较表明 ,伪力法在计算带限位器的舰船设备隔振系统冲击响应时的适用性和有效性。
6) naval equipment
舰船设备
1.
The investigations into the field of shock isolation of naval equipment is reviewed,including theoretical analytical approach and experimental methods,for example,empiricist approach,dynamic analysis approach,Finite Element Method(FEM),Shock Response Spectrum(SRS),Dynamic Design Analysis Method(DDAM),optimal shock isolation,etc.
本文回顾了舰船设备冲击隔离技术的研究历史,综述了该领域的研究现状,主要包括理论分析方法和试验研究方法,如经验公式方法、动力分析方法、有限元方法、冲击响应谱(SRS)法、动力设计分析方法(DDAM)、冲击隔离优化设计等。
补充资料:泵站机电设备
泵站机电设备
mechanical and electrical equipments of pump station
bengzhan!一d旧n shebei泵站机电设备(meehanieal and eleetri-eal equiPments of pumP station)安装在泵站上的各种机械与电气设备的总称按其所起作用分为主要设备(水泵、动力机)和辅助设备两人类其中水泵的作用是将动力设备的机械能传给被抽的水,使水的位能、功能、压能增加,达到提升、输送、增压之目的。水泵的类型很多,其选择依据是泵站设i一卜流量与设计扬程(或称水头),要求所选水泵在高效率区工作,以减少能耗,且不产生气蚀,应保证运行安全和建站投资省。动力机主要有电动机和柴油机。动力机的选择,主要依据水泵的转速、轴功率、电压和传动设备等泵站辅助设备,是为主要设备服务、保t]l一泵站正常运行的其它必需的设备,如电气设备,油、气、水系统中的各种设备,通风、采暖设备,控制、缝测设备及闸门、拦污栅与起重运输设备等。一个泵站究竟要设置哪些辅助设备,应根据泵站型式、建筑物组成、所选定的水泵和动力机的性能以及运行方式等因素来确定。(窦以松)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条