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引用次数: 14
摘要
高炉风口的基本数学模型已经建立得较早。在本研究中,该模型主要用于预测焦炉煤气通过位于风口内的喷枪注入风口时的燃烧反应。燃烧反应用一个简单的反应方案来模拟,其中有3种可能发生的反应。本文研究了以下参数对预测的速度、温度和风口出口气体组成的影响:(1)焦炉煤气的喷注量,(2)使用1个或2个喷注枪,(3)使用2个喷注枪时喷注角的影响。结果表明,1支和2支枪的最大注射量分别为10,000 nm 3 /h和15,000 m 3 /h。与使用1支喷枪相比,使用2支喷枪时的燃烧情况更好,并且改变喷枪的喷射角度对预测结果影响不大。
Mathematical modelling of the injection of coke oven gas into a blast furnace tuyere
A fundamental mathematical model of the tuyere in a blast furnace has been developed earlier. In this study, the model is mainly used to predict the combustion reactions in the tuyere when coke oven gas is injected through lances located inside the tuyere. The combustion reaction is modelled using a simple reaction scheme with 3 possible reactions that can occur. The influence of the following parameters on the predicted velocities, temperatures and composition of the gas at the tuyere outlet is studied in this paper: (i) injection amount of coke oven gas, (ii) the use of 1 or 2 injection lances and (iii) the influence of the injection angles when using 2 injection lances. It is concluded that the maximum injecting amount using 1 and 2 lances is 10,000 nm 3 /h and 15,000 m 3 /h, respectively. The combustion conditions are better when using 2 injection lances are compared to 1 injection lance and the predicted results are not affected to a large degree when the injection angles are changed.
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