Utilization Of Eaf Reducing Slag From Stainless Steelmaking Process As A Sorbent For Co2

In this study, an experimental investigation was carried out to fix CO2 into the electronic arc furnace (EAF) reducing slag from stainless steelmaking process under wet grinding. The slag was ground by the vibrating ball mill with the CO2 and pure water. The reaction behavior was monitored with cons...

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Bibliographic Details
Main Authors: M. N. N. Hisyamudin, S. Yokoyama, M. Umemoto
Format: Text
Language:English
Published: Zenodo 2009
Subjects:
CO2 absorption
EAF reducing slag
vibration ball mill
wet grinding.
Hernandez
Lopez
Lowry
Renard
Salminen
Iceland
Online Access:https://dx.doi.org/10.5281/zenodo.1055245
https://zenodo.org/record/1055245
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Summary:In this study, an experimental investigation was carried out to fix CO2 into the electronic arc furnace (EAF) reducing slag from stainless steelmaking process under wet grinding. The slag was ground by the vibrating ball mill with the CO2 and pure water. The reaction behavior was monitored with constant pressure method, and the change of CO2 volume in the experimental system with grinding time was measured. It was found that the CO2 absorption occurred as soon as the grinding started. The CO2 absorption under wet grinding was significantly larger than that under dry grinding. Generally, the amount of CO2 absorption increased as the amount of water, the amount of slag, the diameter of alumina ball and the initial pressure of CO2 increased. However, the initial absorption rate was scarcely influenced by the experimental conditions except for the initial CO2 pressure. According to this research, the CO2 reacted with the CaO inside the slag to form CaCO3. : {"references": ["Energy Information Administration of US Government, Available:\nhttp://www.eia.doe.gov/bookshelf/brochures/greenhouse/greenhouse.pdf\n.", "S. Bachu, J.J. Adams, \"Sequetration of CO2 in geological media in\nresponse to climate change: Capacity of deep saline aquifers to sequester\nCO2 in solution\", Energy Conversion and Management 44, 2003, pp.\n3151-3175.", "C. Song, \"Global challenges and strategies for control, conversion and\nutilization of CO2 for sustainable development involving energy, catalysis,\nadsorption and chemical processing\", Catalysis Today 115, (2006), pp.\n2-32.", "T.K. Flaathen, S.R. Gislason, E.H. Oelkers, A.E. Sveinbj\u00f6rnsd\u251c\u2502ttir:,\n\"Chemical evolution of the Mt. Hekla, Iceland, groundwaters: A natural\nanalogue for CO2 sequestration in basaltic rocks\", Applied Geochemistry,\n2009, 24, pp. 463-474.", "M. Kakizawa, A. Yamasaki, Y. Yanagisawa, \"A new CO2 disposal\nprocess via artificial weathering of calcium silicate accelerated by acetic\nacid\", Energy 26, (2001), pp. 341-354.", "World Consumption of Primary Energy by Energy Type and Selected\nCountry Groups, 1980-2006: Energy Information Administration, U.S.\nDepartment of Energy, available: http://www.eia.doe.gov/pub/\ninternational/iealf/table18.xls.", "J. K. Stolaroff, G. V. Lowry, D. W. Keith, \"Using CaO- and MgO-rich\nindustrial waste streams for carbon sequestration\", Energy Conversion\nand Management 46, 2005, pp. 687-699.", "S. Eloneva, S. Teir, J. Salminen, C.J. Fogelholm, R. Zevenhoven,\n\"Fixation of CO2 by carbonating calcium derived from blast furnace slag\",\nEnergy 33, 2008, pp. 1461-1467.", "D. Bonenfant, L. Kharoune., S. Sauve', R. Hausler, P. Niquette, M.\nMimeault, M. Kharoune, \"Molecular analysis of carbon dioxide\nadsorption processes on steel slag oxides\", International Journal of\nGreenhouse Gas Control 3, 2009, pp.20-28.\n[10] G.M. Hernandez, R.P. Lopez, F. Renard, J.M. Nieto, L. Charlet, \"Mineral\nsequestration of CO2 by aqueous carbonation of coal combustion fly-ash\",\nJournal of Hazardous Materials 161, 2009, pp. 1347-1354.\n[11] Iron and Steel Slag 2007 Report, Nippon Slag Association, Available:\nhttp://www.slg.jp/bib/download/fs-106.pdf.\n[12] S. Yokoyama, S. Sasaki, R. Sato, M.N.N. Hisyamudin, A. Susuki, M.\nUmemoto, \"Enhancement of reaction between CO2 and electric arc\nfurnace oxidizing slag by grinding\", Proceedings 4th International\nCongress on the Science and Technology of Steelmaking (ICS 2008),\nGifu Japan, 2008.\n[13] S. Yokoyama, R. Sato, M.N.N. Hisyamudin, M. Umemoto, \"Behavior of\nCO2 absorption in wet grinding of electronic arc furnace reducing slag\nfrom normal steelmaking process by vibration ball mill\", Tetsu-to-Hagane\n95, 2009, pp. 58-65.\n[14] M.N.N. Hisyamudin, S. Yokoyama, M. Kawakami, M. Umemoto,\n\"Reaction between CO2 and CaO under dry grinding\", (Accepted for\npublication), Powder Technology Elsevier, to be published."]}

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