Drain Rate and Liquid Level Simulation in Blast Furnace Hearth Using Plant Data

Proper understanding and control of drainage of hot metal and slag from hearth are essential for a stable and efficient blast furnace operation. Various operational problems like irregular casting intervals, damage to lining, low blast intake, furnace pressurization, and so forth are normally encoun...

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Veröffentlicht in:	ISRN metallurgy 2013-07, Vol.2013, p.1-7
Hauptverfasser:	Upadhyay, Hemant, Kundu, T. K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Blast furnaces Computer simulation Drains Furnaces Hearths Liquid levels Mathematical models Metallurgy
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description	Proper understanding and control of drainage of hot metal and slag from hearth are essential for a stable and efficient blast furnace operation. Various operational problems like irregular casting intervals, damage to lining, low blast intake, furnace pressurization, and so forth are normally encountered when liquid levels in the hearth exceed a critical limit where hearth coke and deadman start to float. Estimation of drain rate and liquid level in hearth needs to be simulated based on the operating parameters available as carrying out any direct measurement is extremely difficult due to the hostile conditions. Here, a mathematical model has been developed to simulate real-time liquid level and drainage behavior of the furnace hearth. Based on the computed drainage rate, production rate, and mass balance, the model is able to predict occurrence of slag-out time and cast close time which are in good agreement with the plant data.
doi_str_mv	10.1155/2013/960210
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subjects	Blast furnaces Computer simulation Drains Furnaces Hearths Liquid levels Mathematical models Metallurgy
title	Drain Rate and Liquid Level Simulation in Blast Furnace Hearth Using Plant Data
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