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Zweigel, P., Hamborg, M., Arts, R., Loethe, A., Sylta F. and Tomeras, A. (2000) Prediction of Migration of CO2 Injected into and Underground Depository: Reservoir Geology and Reservoir Modeling in the Sleipner Case (North Sea), In: Williams, Durie, R.A., McMullan, P., Paulson, C.A.J. and Smith, A.Y., Eds., Proceedings of Greenhouse Gas Control Technologies 5th International Conference (GHGT-5), 13-16 August 2000, Cairn, 360-365.
has been cited by the following article:
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TITLE:
Benefaction from Carbonation of Flue Gas CO2 as Coal Mining Filling
AUTHORS:
Yıldırım İ. Tosun
KEYWORDS:
Carbon Sequestration, Coal Fly Ash Utilization, Mineral Carbonation, Mineralization, Fly Ash
JOURNAL NAME:
Geomaterials,
Vol.4 No.2,
April
29,
2014
ABSTRACT: CO2 capturing, transport and sequestration by pressurized water dissolution and reacting by natural alkali lime and magnesia in coal fly ash or other sources become an industrial advantageous sequestration option resulting in green waste solutions or solid fines. Mg and Ca containing minerals are reacting with CO2 to form carbonates. Various types of fly ash materials may react with CO2 to form carbonate regarding ash composition and reaction parameters. Mineral sequestration of CO2 will also allow using the products in cement industry or as cement material in constructions with low cost. This paper discussed progress on coal mining filling by carbonation method using coal fly ash of Soma, Yatagan, Afsin Elbistan Power Stations. Other filler materials containing coal mine waste shale, fly ashes and foam concrete, and additives were searched for pretreatment methods to enhance cement reactivity; and in analyzing the structural changes to identify reaction paths and potential barriers.
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