Gerald Klösch scite author profile

One of the main charging materials of the Linz–Donawitz oxygen steelmaking process (LD) is scrap. Scrap acts as a coolant for the exothermic reactions inside the LD vessel and as an iron source in addition to hot metal. The optimization of the LD process is focused, amongst other factors, on thermodynamic and kinetic modelling. The results of simulations have to be validated in close to reality laboratory-scale experiments. A study was made on the dissolution behavior of common steel scrap in carbon-saturated hot metal which is charged into LD converters. In order to examine the effect of several parameters on diffusive scrap melting, the difference between stagnant and dynamic dissolution as well as the influence of the hot metal temperature were investigated. Using a literature-based equation the mass transfer coefficient of carbon between the solid scrap and the liquid hot metal was evaluated. The ranges of values of the ablation rate and the mass transfer coefficient for the appropriate systems are pointed out, resulting in a significant dependence of the investigated parameters.

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Cycled hydrogen permeation through Armco iron – A joint experimental and modeling approach

Drexler

Siegl

Ecker

et al. 2020

Corrosion Science

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Machine learning in continuous casting of steel: a state-of-the-art survey

Cemernek

Gursch

et al. 2021

J Intell Manuf

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Computational and Experimental Analysis of Carbo‐Nitride Precipitation in Tempered Martensite

Zamberger

Wójcik

Klarner

et al. 2012

steel research int.

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The present work describes the analysis of carbo‐nitride precipitation kinetics in tempered martensite of Nb–Ti‐microalloyed steel with a carbon content of 0.3 wt%. Based on the information obtained from transmission electron microscopy and scanning electron microscopy, a computational simulation procedure is developed within the software package MatCalc, which is capable of describing the experimental results in terms of the number density, composition, and type of precipitate phases. No explicit fitting parameters are used in the computer simulation. The input data is entirely based on independent physical or microstructural parameters. To determine the chemical composition and type of precipitates, energy dispersive X‐ray spectroscopy and selected area electron diffraction are utilized. The simulation results and the experimentally obtained information are in good agreement.

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Analytical and numerical determination of the heat transfer coefficient between scrap and hot metal based on small-scale experiments

Penz¹,

Tavares

Weiß

et al. 2019

International Journal of Heat and Mass Transfer

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Gerald Klösch

Dissolution of Scrap in Hot Metal under Linz–Donawitz (LD) Steelmaking Conditions

Cycled hydrogen permeation through Armco iron – A joint experimental and modeling approach

Machine learning in continuous casting of steel: a state-of-the-art survey

Computational and Experimental Analysis of Carbo‐Nitride Precipitation in Tempered Martensite

Analytical and numerical determination of the heat transfer coefficient between scrap and hot metal based on small-scale experiments

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