This paper briefly introduces the temperature control technique of oil ignition in circulating fluidized boiler bed, analyzes the causations and summarizes treatment schemes.
简要介绍了循环流化床锅炉油点火的床温控制技术,分析了原因并总结了处理方案。
The main steam pressure control system, bed temperature measure system, bed temperature adjust system and action condition of main fuel trip (MFT) are analyzed.
对主蒸汽压力控制系统、床温测量系统、床温校正系统和主燃料跳闸的动作条件进行了详细的分析。
The carrying capacity of bed slab was analyzed in each condition, further considers the influence of temperature stress and the crack control.
对各种最不利情况进行承载能力分析,进一步考虑温度应力的影响及裂缝的控制。
The control of catalyst bed temperature in a fixed bed reactor during high exothermic reactions is of primary concern to designers.
在强放热反应的固定床催化反应器的设计中,床层温度的控制常成为设计的主要焦点。
The working process of experiment fluidized bed with high temperature and pressure is described, and a computer control system with a spare manual control is designed by combining computer with meter.
描述了高温高压流化实验床的工作过程,采用计算机控制和仪表控制相结合的设计思想,设计了具有手动后备的计算机控制系统。
The control system is the core for test-bed, for this, this text design the control system of the electric elevator and the control system of the temperature.
控制系统是整个试验台的核心,为此,本文设计了电动升降臂控制系统和温度控制系统。
Auto control of liquid amount to be supplied and the temperature in the bed is constant and no splash.
完成粉末的包衣供液量自动控制,床内温度稳定无飞溅。
So the low control level of the bed temperature, as an important parameter of circulating fluidized bed boiler, is keeping.
因此,作为循环流化床锅炉燃烧控制系统中的一个重要参数的床温的自动化控制水平一直无法得到有效提高。
The result indicates that temperature at the inlet of catalyst bed is the most optimal control parameter to realize the optimal operation of ammonia converter.
结果表明,催化床进口温度是实现氨合成塔优化操作的最优调节参数。
The result indicates that temperature at the inlet of catalyst bed is the most optimal control parameter to realize the optimal operation of ammonia converter.
结果表明,催化床进口温度是实现氨合成塔优化操作的最优调节参数。
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