1) temperature of Rb atoms gas
铷原子蒸汽温度
2) rubidium atomic vapor
铷原子蒸气
1.
In this paper,the phenomenon of laser breaking up into filaments is studied in the near-resonant rubidium atomic vapor,which is induced by the strong nonlinear Kerr effect.
研究了具有高斯横向分布的连续激光束单次通过铷原子蒸气后,在近共振附近铷原子蒸气中,由强的非线性克尔效应导致激光分裂成细丝的现象,并且这些细丝的衍射图样在远场通过相干叠加,可以形成具有规则结构的斑图模式。
3) Rb Vapor Cell
铷蒸汽室
4) steam temperature
蒸汽温度
1.
Analysis of steam temperature feature and control mode for large powder boiler;
大型电站锅炉的蒸汽温度特性及其调节方式
2.
The superheated steam temperature is an important parameter in the waste heat recovery system of sulfur-based sulfuric acid plant.
硫磺制酸装置余热回收系统的过热蒸汽温度是一个重要的参数。
3.
Factors that influence steam temperature are analysed.
针对影响锅炉蒸汽温度的因素进行了分析,并结合国电太原第一热电厂300 MW机组调整汽温的实践经验作出阐述,总结出机组在启动、灭火、正常运行阶段汽温的优化调整方法,提高了锅炉的蒸汽温度,取得了经济效益,对同类型机组具有参考意义。
5) vapor cell rubidium atomic frequency standard
汽泡型铷原子频标
1.
The phase stabilities of the T-type frequency selector and RC phase-shift circuit,which are applied to the servo circuit of a vapor cell rubidium atomic frequency standard,are discussed mainly,and the mechanism how the additional phase variations coming from the two circuits influence the frequency stability of a rubidium standard is analyzed.
着重讨论了汽泡型铷原子频标伺服电路中T型选频电路和RC移相电路的相位稳定性,分析了它们的附加相移波动影响整机频率稳定度的机理。
6) main steam temperature
主蒸汽温度
1.
Cascade CMAC study control strategy for the main steam temperature in power plant;
主蒸汽温度的串级CMAC学习控制策略
2.
In light of the large delay,strong inertia and uncertainty characteristics of main steam temperature control system in thermal power plants,an auto-disturbance rejector controller(ADRC) scheme for main steam temperature control is presented.
针对火电厂主蒸汽温度控制系统的大时滞、大惯性以及动态特性随工况变化而变化的不确定性等特点,提出了自抗扰控制器(ADRC)主蒸汽温度控制方案。
3.
Using this model,the quantify influence of the disturbance of main steam temperature,main steam pressure,vacuum,reheat steam temperature,superheater spray quantity and reheater spray quantity on the unit efficiency and the standard coal consumption was ob.
利用该模型计算得到了主蒸汽温度、主蒸汽压力、真空、再热汽温度、过热器喷水量和再热器喷水量发生扰动时,对机组效率和标准煤耗的定量影响。
补充资料:过热蒸汽温度控制
分子式:
CAS号:
性质:过热蒸汽温度控制的目标是维持过热器出口蒸汽温度在工艺允许的范围内,控制手段主要分为两类:(1)通过特殊的烟道挡板来改变流经过热器的烟气量以达到控制过热蒸汽温度的目的;(2)通过安装在蒸汽管线上的减温水流量的改变来控制过热蒸汽温度。
CAS号:
性质:过热蒸汽温度控制的目标是维持过热器出口蒸汽温度在工艺允许的范围内,控制手段主要分为两类:(1)通过特殊的烟道挡板来改变流经过热器的烟气量以达到控制过热蒸汽温度的目的;(2)通过安装在蒸汽管线上的减温水流量的改变来控制过热蒸汽温度。
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