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Modelling of hydrogen gas generation from overmature organic matter in the Cooper Basin, Australia

Christopher J. Boreham, Dianne S. Edwards, Andrew Feitz, Andrew Murray, Nicolaj Mahlstedt, Brian Horsfield

2023The APPEA Journal35 citationsDOIOpen Access PDF

Abstract

A significant portion of planned energy and mineral resource investment into Australia is now for hydrogen (H2). Whether from fossil fuels with carbon capture and storage or from electrolysis of water using renewable energy, there is a price premium for manufactured hydrogen. The production of H2 from geological sources (geologic H2) could be more cost-effective. The majority of sources for geologic H2 are abiotic and their resource potential is largely unknown. Biogenic (microbial and thermogenic) sources also exist. The focus for this study is on a thermogenic source where chemical kinetics of H2 generation from the thermal breakdown of land-plant-derived organic matter has been applied within a petroleum system modelling framework for the Cooper Basin. Modelling of mid-Patchawarra Formation coals and shales, the main source rocks for petroleum, indicate that free H2 is available at maturities >3.5% vitrinite reflectance and that a large volume of free H2 is predicted to occur in a ‘sweet spot’ deep within the Nappamerri Trough. In-situ free H2 concentrations deep within the Nappamerri Trough are predicted to be comparable to methane concentrations in productive unconventional shale gas plays. Nevertheless, exploration drilling within the Cooper Basin’s depocentre is sparse and a deep H2 system remains largely untested.

Topics & Concepts

Source rockGeologyFossil fuelOrganic matterUnconventional oilOil shaleNatural gasEnergy sourceKerogenPetroleumEarth scienceStructural basinChemistryPaleontologyOrganic chemistryHydrocarbon exploration and reservoir analysisAtmospheric and Environmental Gas DynamicsMethane Hydrates and Related Phenomena
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