PAO NLMK铁水冶炼节能技术

Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information Pub Date : 2019-02-02 DOI:10.32339/0135-5910-2019-1-32-36

S. Filatov, A. Dagman, V. Titov

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引用次数: 0

摘要

降低铁水冶炼能耗是高炉技术完善的现实任务。在PAO条件下，选择以增加炉口压力和提高焦炭热强度为代价，最大限度地提高高炉过程压力的NLMK制度作为提高高炉运行能效的优先途径之一。高炉生产效率、比焦炭率、进气氧气量、炉口下不同气压下燃料用量等数据。确定了煤粉率与总碳消耗量之间的关系。结果表明，在2012年至2018年期间，在PAO NLMK高炉上应用炉口下最大压力下热强度为60-65%的焦炭并使用煤粉燃料，使焦炭率降低了100公斤以上。同时，每吨铁水的总碳消耗量降低30公斤以上，提高了冶炼产品化学成分的稳定性。

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Energy efficient technology of hot metal smelting at PAO NLMK

Decrease of energy expenditure for hot metal smelting is an actual task in blast furnace technology perfection. Under conditions of PAO NLMK regimes with maximum forcing of the BF process at the expense of pressure increase under furnace mouth and coke hot strength increase were chosen as one of priority ways to increase the BF operation energy efficiency. Data on blast furnaces productivity, specific coke rate, quantity of blow-in oxygen and fuel at different gas pressure levels under the furnace mouth quoted. A dependence between pulverized coal rate and total carbon consumption determined. It was shown, that application in PAO NLMK blast furnaces of coke having hot strength of 60–65% at maximum possible pressure under the furnace mouth and application of pulverized-coal fuel enabled in the period from 2012 through 2018 to decrease the coke rate by more than 100 kg. Also the total carbon consumption decreased by more than 30 kg per hot metal ton and to increase smelting products chemical composition stability.

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Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information

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