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Shale gas reserve evaluation by laboratory pyrolysis and gas holding capacity consistent with field data

Author

Listed:
  • Patrick Whitelaw

    (Energy Technologies Building
    Centre for Environmental Geochemistry)

  • Clement N. Uguna

    (Energy Technologies Building
    Centre for Environmental Geochemistry)

  • Lee A. Stevens

    (Energy Technologies Building)

  • Will Meredith

    (Energy Technologies Building)

  • Colin E. Snape

    (Energy Technologies Building
    Centre for Environmental Geochemistry)

  • Christopher H. Vane

    (Centre for Environmental Geochemistry)

  • Vicky Moss-Hayes

    (Centre for Environmental Geochemistry)

  • Andrew D. Carr

    (Advanced Geochemical Systems Ltd.)

Abstract

Exploration for shale gas occurs in onshore basins, with two approaches used to predict the maximum gas in place (GIP) in the absence of production data. The first estimates adsorbed plus free gas held within pore space, and the second measures gas yields from laboratory pyrolysis experiments on core samples. Here we show the use of sequential high-pressure water pyrolysis (HPWP) to replicate petroleum generation and expulsion in uplifted onshore basins. Compared to anhydrous pyrolysis where oil expulsion is limited, gas yields are much lower, and the gas at high maturity is dry, consistent with actual shales. Gas yields from HPWP of UK Bowland Shales are comparable with those from degassed cores, with the ca. 1% porosity sufficient to accommodate the gas generated. Extrapolating our findings to the whole Bowland Shale, the maximum GIP equate to potentially economically recoverable reserves of less than 10 years of current UK gas consumption.

Suggested Citation

  • Patrick Whitelaw & Clement N. Uguna & Lee A. Stevens & Will Meredith & Colin E. Snape & Christopher H. Vane & Vicky Moss-Hayes & Andrew D. Carr, 2019. "Shale gas reserve evaluation by laboratory pyrolysis and gas holding capacity consistent with field data," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11653-4
    DOI: 10.1038/s41467-019-11653-4
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