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Title

Assessing CO2 adsorption capacities onto shales through gravimetric experiments: a first step in the feasibility study of coupling fracking with carbon storage

Publication Year

2014

Author(s)
  • Lafortune, Stephane
  • Adelise, Francis
  • Garrido, David Ricardo Rhenals
  • Pokryszka, Zbigniew
Conference
12th International Conference on Greenhouse Gas Control Technologies (GHGT) Date: OCT 05-09, 2014 Location: Austin, TX
Source
12TH INTERNATIONAL CONFERENCE ON GREENHOUSE GAS CONTROL TECHNOLOGIES, GHGT-12 Bokk Series: Energy Procedia Volume: 63 Pages: 5933-5937 Published: 2014
ISSN
1876-6102
Abstract

Oil and gas production from shale formations stimulated by hydraulic fracturing (or fracking) is an abundant source of domestically available energy for the United States of America. Today, shale formations are mostly fracked using fresh water or brine which induces large volumes of water to manage. The use of CO2 is an alternative fracking option and appears to have several benefits, as (1) it does not require water but carbon dioxide; as (2) injection of carbon dioxide could enhance the gas recovery; and as (3) carbon dioxide could be adsorbed onto the shale surface to be permanently stored in the formation. We performed adsorption experiments to assess the quantity of carbon dioxide that could be adsorbed onto shale. (c) 2014 The Authors. Published by Elsevier Ltd.

Author Keyword(s)
  • shale gas
  • adsorption
  • CO2
  • storage
KeyWord(s) Plus
    ESI Discipline(s)
    • Chemistry
    • Engineering
    • Geosciences
    Web of Science Category(ies)
    • Chemistry, Applied
    • Energy & Fuels
    Adress(es)

    [Lafortune, Stephane; Adelise, Francis; Garrido, David Ricardo Rhenals; Pokryszka, Zbigniew] Inst Natl Environm Ind & Risques INERIS, French Natl Inst Ind Environm & Risks, F-60555 Verneuil En Halatte, France

    Reprint Adress

    Lafortune, S (reprint author), Inst Natl Environm Ind & Risques INERIS, French Natl Inst Ind Environm & Risks, Parc Technol ALATA,BP2, F-60555 Verneuil En Halatte, France.

    Country(ies)
    • France
    CNRS - Adress(es)
      Accession Number
      WOS:000361211506015
      uid:/19BRFRW2
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