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Experimental studies to overcome the recycling barriers of stainless-steel and BOF slags

Time: Fri 2022-03-11 10.00

Location: Sefström, Brinellvägen 23, Stockholm

Video link: https://kth-se.zoom.us/webinar/register/WN_7j8wKLOWStOF7dpspLSvWA

Language: English

Subject area: Materials Science and Engineering

Doctoral student: Mattia De Colle , Processer

Opponent: Doctor Muxing Guo, KU Leuven, Belgien

Supervisor: Professor Pär Jönsson, Processer; Andrey Karasev, Processer

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Abstract

This thesis presents several studies aimed at improving the recycling of steel slag. The studies are based on a first evaluation of the state-of-the-art

of the recycling applications both with respect to their possibilities and limitations. In addition, an analysis that highlights several properties of all

kinds of ferrous slags, such as bulk chemical composition and common mineral phases, is presented to aid the discussion. Specifically, the studies

presented in this thesis cover two main topics: a new recycling application for stainless-steel slags and a theoretical study on the hydration of

ferropericlase, which is a mineral often present in basic oxygen furnace slags. Most of the studies presented in this thesis focus on the exploration of a

new use of stainless-steel slags, aimed at increasing their recycling rate. In fact, this kind of materials are the most problematic slags to recycle, as

most are not viable for most of the state-of-the-art applications. Therefore, the potential to use them as a substitute for lime in the neutralization of

acidic waste waters is investigated. The studies cover a wide range of trials, from test performed at both laboratory and industrial scale with acidic

waste waters collected from stainless-steel plants, to more fundamental studies on the dissolution of slag minerals in acid environment. Overall,

the substitution of lime with stainless-steel slags is proved to be successful both in terms of the obtained final pH values as well as in terms of

obtaining an efficient removal of metal ions dissolved in waters. In the last part of the thesis, a theoretical study on the hydration of

ferropericlase is conducted. This study proposes a possible technical solution to reduce the volumetric expansion of steel slags, which contain

high percentages of periclase. Specifically, it is seen that ferropericlase with high percentages of FeO adsorbs less water. Thus, they expand less

compared to regular periclase. Therefore, the formation of such a phase during the solidification of slag can provide a higher volumetric stability,

which is highly beneficial when the material later is employed in outdoors applications

urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-309501

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