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Effect of dissolved H2SO4 on the interaction between CO2-rich brine solutions and limestone, sandstone and marl

(2017) CHEMICAL GEOLOGY. 450. p.31-43
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Keywords
CO2 storage, Impurities, SO2- and CO2-water-rock interactions, Reactive transport modeling, Micro-CT, SEM, XRD, SUPERCRITICAL CARBON-DIOXIDE, SULFUR-DIOXIDE, MADISON LIMESTONE, CO2 SEQUESTRATION, SALINE AQUIFERS, ROCK REACTIONS, ACID GASES, RESERVOIR, CALCITE, CAPROCK

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Citation

Please use this url to cite or link to this publication:

Chicago
Thaysen, EM, Josep M Soler, Marijn Boone, Veerle Cnudde, and Jordi Cama. 2017. “Effect of Dissolved H2SO4 on the Interaction Between CO2-rich Brine Solutions and Limestone, Sandstone and Marl.” Chemical Geology 450: 31–43.
APA
Thaysen, E., Soler, J. M., Boone, M., Cnudde, V., & Cama, J. (2017). Effect of dissolved H2SO4 on the interaction between CO2-rich brine solutions and limestone, sandstone and marl. CHEMICAL GEOLOGY, 450, 31–43.
Vancouver
1.
Thaysen E, Soler JM, Boone M, Cnudde V, Cama J. Effect of dissolved H2SO4 on the interaction between CO2-rich brine solutions and limestone, sandstone and marl. CHEMICAL GEOLOGY. 2017;450:31–43.
MLA
Thaysen, EM et al. “Effect of Dissolved H2SO4 on the Interaction Between CO2-rich Brine Solutions and Limestone, Sandstone and Marl.” CHEMICAL GEOLOGY 450 (2017): 31–43. Print.
@article{8518443,
  author       = {Thaysen, EM and Soler, Josep M and Boone, Marijn and Cnudde, Veerle and Cama, Jordi},
  issn         = {0009-2541},
  journal      = {CHEMICAL GEOLOGY},
  language     = {eng},
  pages        = {31--43},
  title        = {Effect of dissolved H2SO4 on the interaction between CO2-rich brine solutions and limestone, sandstone and marl},
  url          = {http://dx.doi.org/10.1016/j.chemgeo.2016.11.037},
  volume       = {450},
  year         = {2017},
}

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