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Title: Enhancing CO2 Mineralization Rate and Extent of Iron and Steel Slag via Grinding

Journal Article · · ISIJ International

Roughly 10% of the CO2 emissions from iron and steel making are attributable to the direct release of CO2 from the thermal decomposition of carbonates to produce flux, mainly CaO, used for impurity removal. Notably, these direct emissions remain even if carbon-based steelmaking is replaced by hydrogen-based steelmaking. After removing impurities from the molten metal, this flux becomes the solid waste product called ‘slag’, a primarily Ca-silicate material. The transformation of slag back into carbonates is thermodynamically spontaneous with negative ΔG in the ambient environment, meaning that ~10% of the CO2 emissions from iron and steel making could be negated if equipment and methods were developed to support CO2 mineralization. However, the rate of CO2 mineralization using slag is slowed by several environmental, geometric, and processing factors. We leverage an experimentally verified model of CO2 mineralization to determine how to efficiently accelerate the process. Increasing the crystallinity of slag, increasing the relative humidity, and reducing the grain size of slag particles provide the greatest increase in CO2 mineralization rate at the lowest energy penalty. Increasing the concentration of CO2 and the temperature provide only modest increases in the CO2 mineralization rate while incurring a substantial energy penalty. For steelmaking slags, CO2 mineralization represents low-hanging fruit as the current reuse pathways are low value. For ironmaking slag, replacing the production of amorphous slag for the cement industry with the production of crystalline slag for CO2 mineralization becomes financially preferable when a carbon price/tax exceeds 67.40 USD/t-CO2.

Research Organization:
Lawrence Livermore National Laboratory (LLNL), Livermore, CA (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA)
Grant/Contract Number:
AC52-07NA27344
OSTI ID:
1959666
Report Number(s):
LLNL--JRNL-836690; 1056178
Journal Information:
ISIJ International, Journal Name: ISIJ International Journal Issue: 12 Vol. 62; ISSN 0915-1559
Publisher:
J-STAGECopyright Statement
Country of Publication:
United States
Language:
English

References (21)

Introduction to Carbon Capture book January 2012
Accelerated curing of cementitious systems by carbon dioxide journal November 1972
Enhanced dissolution of minerals: stored energy, amorphism and mechanical activation journal November 2001
Carbonation activated binders from pure calcium silicates: Reaction kinetics and performance controlling factors journal October 2018
Composition and microstructure of 20-year-old ordinary Portland cement–ground granulated blast-furnace slag blends containing 0 to 100% slag journal July 2010
Fixation of CO2 by chrysotile in low-pressure dry and moist carbonation: Ex-situ and in-situ characterizations journal June 2010
Quantification of the CO2 mineralization potential of ironmaking and steelmaking slags under direct gas-solid reactions in flue gas journal August 2019
Investigation of milling energy input on structural variations of processed olivine powders for CO2 sequestration journal January 2015
Rejuvenation of granulated blast furnace slag (GBS) glass by ball milling journal March 2021
A comparative energy and costs assessment and optimization for direct air capture technologies journal August 2021
Mineral comminution: Energy efficiency considerations journal July 2008
Basic oxygen furnace (BOF) slag cooling: Laboratory characteristics and prediction calculations journal September 2013
Carbonation of Wollastonite(001) Competing Hydration: Microscopic Insights from Ion Spectroscopy and Density Functional Theory journal February 2015
DFT Study on the Effect of Water on the Carbonation of Portlandite journal January 2013
Direct mineralization of atmospheric CO 2 using natural rocks in Japan journal November 2020
Reaction of Beta-Dicalcium Silicate and Tricalcium Silicate with Carbon Dioxide and Water Vapor journal March 1979
Physical properties and reactivity of pozzolans, and their influence on the properties of lime–pozzolan pastes journal November 2010
Effect of Solidification and Cooling Methods on the Efficacy of Slag as a Feedstock for CO2 Mineralization journal January 2018
Screening Out Reactivity-Promoting Candidates for γ-Ca2SiO4 Carbonation by First-Principles Calculations journal September 2020
A comprehensive and synthetic dataset for global, regional, and national greenhouse gas emissions by sector 1970–2018 with an extension to 2019 journal November 2021
The cost of carbon dioxide removal via Direct Air Mineralization of natural rocks: Case studies in Japan conference January 2021