1.
APPLICATION OF NON-LINEAR PID CONTROLLER IN THE MAIN STEAM TEMPERATURE CONTROL
非线性PID控制器在主蒸汽温度控制中的应用
2.
Somewhat lower temperature phenomenon of main steam has been existing for a long time on boiler on.5 in Datang Taiyuan Co-generation Power.
大唐太原第二热电厂5号炉长期以来存在著主蒸汽温度偏低现象。
3.
The Application Study of Intelligent Control on Main-steam Temperature Control at Power Plant
智能控制在电厂主蒸汽温度控制系统中的应用研究
4.
Research on Fuzzy Neural System and Its Application in Main Steam Temperature Control System of Power Plant;
火电厂主蒸汽温度的模糊神经网络控制系统的研究
5.
Optimizing Control of Boiler Super-heater Steam Temperature Based on Inducing Radiant Energy Signal
利用辐射能信号优化锅炉主蒸汽温度控制的研究
6.
OPTIMIZATION OF PID CONTROLLER PARAMETERS FOR MAIN STEAM TEMPERATURE BASED ON MULTI-OBJECTIVE GENETIC ALGORITHM AND MULTI-ATTRIBUTE DECISION MAKING
基于多目标遗传算法和多属性决策的主蒸汽温度PID参数优化
7.
Technological Upgrade for Energy Saving to elevate220t/h CFB s Main Steam Temperature
提高220t/h循环流化床锅炉主蒸汽温度的节能技术改造
8.
COUNTERMEASURES FOR MAIN STEAM OVERTEMPERATURE OF 600 MW SUPERCRITICAL UNIT DURING TURBINE SPEED-UP
超临界600MW机组冲转时主蒸汽温度偏高的防治措施
9.
MAIN STEAM TEMPERATURE CONTROL USING RBF NEURAL NETWORK BASED ON HYBRID LEARNING ALGORITHM
基于混合学习算法的RBF神经网络主蒸汽温度控制
10.
EMULATION STUDY ON ACTIVE DISTURBANCE REJECTION CONTROLLER IN MAIN STEAM TEMPERATURE COTROL SYSTEM OF THERMAL POWER PLANT
自抗扰控制器在火电厂主蒸汽温度控制中的仿真研究
11.
Steam is superheated by being heated above the temperature of saturated steam.
蒸汽被加热到饱和蒸汽的温度以上使之过热。
12.
Petrol forms vapor above a certain temperature.
高于一定的温度汽油就形成蒸汽。
13.
As the steam expands, the temperature falls.
当水蒸汽膨胀时,温度就下降。
14.
The temperature is raised so that water may be turned into steam.
升高温度也使水变成蒸汽。
15.
testing method for colour fastness to high temperature steaming
纺织品耐高温汽蒸处理色牢度试验法
16.
The drop in temperature condenses the steam into water
温度下降使蒸汽凝结成水。
17.
The drop in temperature condensed the steam to water.
温度下降使蒸汽凝成了水。
18.
The temperature of reheat steam directly influences the efficiency of a power station.
再热蒸汽温度直接影响电站的经济性。