在相同工况条件下,用传热学计算的方法对比了原位燃烧合成陶瓷保护层高炉风口与无阻热层的紫铜风口的节能效果。
At the same condition, effect of energy-saving of tuyere with the Situcombustion synthesized ceramic-lined material and tuyere without a single insulator is compared by calorifics calculation.
本文建立了炉缸炉底的传热学模型,编制了通用的炉缸炉底温度场计算软件。
The heat transfer mathematical model of hearth bottom was established, a general computational software of hearth bottom temperature field was programmed.
应用传热学理论计算分析了高炉冷却水的稳定性、冷却水的水速、冷却水管与冷却壁本体的间隙及冷却壁的高度对长寿高效高炉冷却壁寿命的影响。
In this paper, effect of the cooling water stability, cooling water velocity, gap between cooling water pipe and stave and height of stave on the stave life is analyzed by heat transfer theory.
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