通过对高炉热风炉燃烧系统和现有烟气余热回收装置的研究,提出了固定蓄热式烟气余热回收利用新方法。
The burning system of hot stove and equipment of waste heat recovery is studied. A new method of waste heat recovery with fast heat storage room is put forward.
主要介绍热风炉系统中的热风温度控制、助燃空气,煤气稳压调节、以及空气与煤气的燃烧配比调节。
The hot air temperature control, combustion-supporting air, gas pressure regulation and the regulation of air-gas combustion ratio in hot air stove system are mainly introduced.
该控制系统基本实现了热风炉燃烧、焖炉、送风的自动控制,基本取代人工操作,取得了良好的控制效果。
The control system basically achieves automation control of combustion, banking and blast of the stove, and replaces manual operation, giving good control effect.
在改变控制参数时,该控制系统仍可保持较好的控制效果,可满足现有热风炉实现燃烧自动控制的要求。
When changing the controlling parameters, the control effect of the system is still good. This controller can meet the requirements of controlling the combustion of hot air furnace.
高炉热风炉燃烧控制系统通过改造,对实现高炉燃烧过程的稳定性、经济性、合理性,起到了一定的效果。
This paper gives an account of the renovated combustion controls for hot blast stove. which is designed to attain stability, economy, rationality during the combustion in blast furnace.
简述了热风炉燃烧工艺和控制系统性能指标;
The burning technics and the performance index of the control system are summarized.
详细阐述了热风炉燃烧控制系统的设计思想及设计步骤:建立了热风炉模糊自适应控制模型;
The strategy and the process of design are expounded. The model of fuzzy adaptive control which used in hot blast stove is established.
详细阐述了热风炉燃烧控制系统的设计思想及设计步骤:建立了热风炉模糊自适应控制模型;
The strategy and the process of design are expounded. The model of fuzzy adaptive control which used in hot blast stove is established.
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