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Dependence on injection temperature and on aquifer’s petrophysical properties of the local stress applying on the pore wall of a crystallized pore in the context of CO2 storage in deep saline aquifers

Published online by Cambridge University Press:  06 November 2013

Florian Osselin ,
Teddy Fen-Chong ,
Antonin Fabbri ,
Arnault Lassin ,
Jean-Michel Pereira  and
Patrick Dangla
Florian Osselin
Affiliation:
Université Paris-Est, Laboratoire Navier (UMR 8205), CNRS, ENPC, IFSTTAR, 77420 Marne-la-Vallée, France BRGM, 3 avenue Claude Guillemin, 45060 Orléans, France
Teddy Fen-Chong*
Affiliation:
Université Paris-Est, Laboratoire Navier (UMR 8205), CNRS, ENPC, IFSTTAR, 77420 Marne-la-Vallée, France
Antonin Fabbri
Affiliation:
LGCB-LTDS, UMR 5513 CNRS, ENTPE, Université de Lyon, 69100 Vaulx-en-Velin, France
Arnault Lassin
Affiliation:
BRGM, 3 avenue Claude Guillemin, 45060 Orléans, France
Jean-Michel Pereira
Affiliation:
Université Paris-Est, Laboratoire Navier (UMR 8205), CNRS, ENPC, IFSTTAR, 77420 Marne-la-Vallée, France
Patrick Dangla
Affiliation:
Université Paris-Est, Laboratoire Navier (UMR 8205), CNRS, ENPC, IFSTTAR, 77420 Marne-la-Vallée, France
*
ae-mail: teddy.fen-chong@ifsttar.fr
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Abstract

The development of CCS (carbon capture and storage) currently faces numerous problems and particularly the precipitation of salts induced by the drying of the porous medium during injection of carbon dioxide in deep saline aquifers. This precipitation has several consequences, and particularly the creation of a crystallization pressure which can have an important mechanical impact on the host rock. Literature on crystallization pressure is one century rich of experimental and theoretical works. However, applications have been performed in the field of civil engineering and building science only, and, despite they are of paramount importance in the context of CCS, studies about this phenomenon in deep reservoir conditions are currently lacking. In this paper, we retrieve the classic crystallization pressure equation within the framework of geochemistry and present its explicit form of dependence with temperature, pressure, and composition. Evaluation of the crystallization pressure has then been proceeded considering the injection conditions and a sketch of in-pore crystallization process. The evolution of the local stress transmitted to a crystallized pore wall is found to be strongly related to the petrophysical properties of the medium and to the injection temperature of the carbon dioxide under the assumption of constant salt concentration during the precipitation process. Values differ strongly with the considered mineral, depending particularly on the solubility, and can reach in some conditions 165 MPa, making crystallization pressure a major factor in the mechanical behavior of the aquifer.

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 64 , Issue 2 , November 2013 , 21101
Copyright
© EDP Sciences, 2013

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