Author(s): Rajesh Kandula
Metallurgical coke is a primary fuel source integral to steel production, achieved through the carbonization of coal in coke ovens at elevated temperatures. Ensuring optimal coke quality necessitates a uniform temperature distribution within these ovens to prevent incomplete carbonization or over-coking. The case study is presented herein leverages Finite Element Analysis (FEA), a potent computational technique, to execute a transient thermal analysis on a coal bed in a horizontal metallurgical coke oven. This analysis aids in understanding temperature variations over time during the coking process. This research underscores the pivotal role of transient thermal simulations in achieving consistent coke quality, improved yields, and efficient coke-making operations.
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