Til hovedinnhold
Norsk English

Hydraulic fracturing in CO2 geological storage

Sammendrag

Among the outstanding technical issues in CO2 geological storage is the risk of hydraulic fracturing and migration of CO2 in upper formations and to the atmosphere, the wellbore CO2 injectivity and the storage capacity of the formation. We present a contribution on these issues based on conclusions of the modelling work of hydraulic fracturing in weak formations. The work was initially carried out with finite element analysis of a fully coupled elastoplastic hydraulic fracturing model and later was extended to analytical work based on a Mohr-Coulomb dislocation model where the complete slip process that is distributed around the crack tip was replaced by superdislocations that are placed in the effective centers of plastic deformation. Scaling of the FEM and analytical results enables the identification of a dominant parameter which defines the regimes of brittle to ductile propagation and the limit at which a mode-1 fracture cannot advance. We found that a hydraulically induced vertical fracture from CO2 injection is more likely to propagate horizontally than vertically, remaining contained in the storage zone. The horizontal fracture propagation will have a positive effect on the injectivity and storage capacity of the formation.

Kategori

Vitenskapelig Kapittel/Artikkel/Konferanseartikkel

Språk

Engelsk

Forfatter(e)

Institusjon(er)

  • Panepistimio Kyprou
  • SINTEF Industri / Anvendt geovitenskap
  • Aristotle University of Thessaloniki
  • Imperial College London

År

2016

Forlag

American Rock Mechanics Association (ARMA)

Bok

50th US Rock Mechanics / Geomechanics Symposium 2016

ISBN

9781510828025

Vis denne publikasjonen hos Cristin