1) low-pressure operation
低压运转
2) Low voltage operation
低压运用
3) low pressure operation
低压运行
4) low voltage amplifier
低压运放
5) LP rotor
低压转子
1.
The application of UGII-CAD/CAM software for nu me rical-control automatic programming of large turbine LP rotor is mainly introdu ced , and the analysis for several facets of Modeling, numerical control program ming, analog simulation to point orientation program, post processing's enactmen t and creation of program is given in detail.
主要介绍了UGⅡ CAD/CAM软件在大型汽轮机低压转子数控自动编程上的应用,并从模型的建立、数控编程、点位程序模拟仿真、后置处理的设定、加工程序的生成等几个方面上作了详细的分析。
2.
In view of the 330 MW subcritical condenser steam unit with single intermediate reheat,four cylinders and quadruple flow,the large-area cracking problem on the 4th-stage blade of LP rotor was analyzed.
以330MW亚临界、中间一次再热、四缸四排汽单轴凝汽式汽轮发电机组为背景,针对汽轮机低压转子第4级叶片出现的大面积开裂问题,分析了影响叶片振动响应和动应力的主要因素,利用振动模型,对叶片的振动特性和动应力进行了分析计算,得出叶片振动特性设计不良是造成叶片开裂的主要原因。
3.
2 in Huaneng Hegang PowerGeneration Company had surpassed stanadard level under operation condition of rated revolution after major repair,it has been found from vibration data analysis that the secondary derivative mass imbalance to be existed on LP rotor and mass imbalance to be existed on coupling between generator and exciter.
鹤岗发电有限公司2号汽轮发电机组大修后额定转速下低压转子和励磁机转子轴振超标,分析振动数据发现,低压转子存在二阶质量不平衡及发电机励磁机联轴器质量不平衡。
6) Low-Pressure Rotor
低压转子
1.
Computer simulation on temperature field and phase transformation in low-pressure rotor during heating process
低压转子加热过程温度场与相变的计算机模拟
2.
The last stage blade in low-pressure rotor of unit No.
介绍了巴蜀江油电厂7号机低压转子末级叶片及其损坏情况和通流部分改造的实施过程及经验。
3.
In this paper, the processing technique was deeply investigated in details for machining the ultra-large palm-type groove of low-pressure rotor in 1000MW supercritical steam turbine.
1000MW汽轮机组低压转子国产化加工是上海汽轮机厂重点科研项目。
补充资料:《藏象学说的理论与运用》
《藏象学说的理论与运用》
《藏象学说的理论与运用》 基础理论著作。上海中医学会编。成书于1960年。系据专题讲座稿整理修改而成。全书依据阴阳五行学说为指导思想的中医理论体系,着重阐明人体脏腑功能、生理及病理机制的理论与临床运用。书分三篇。上篇为总论,概述脏腑的区别及其基本性质和功能;中篇为各论,分述各脏腑的生理功能、病理机制、病证及临床术语;下篇为藏象学说在内、儿、妇、外等各科临床的运用。附录人体各部的命名以及体型的分类等内容。
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