Authors / CoAuthors
Wang, L. | Rees, S. | Carr, L.K. | Feitz, A.J.
Abstract
Geoscience Australia has conducted a feasibility analysis on underground gas/hydrogen storage (UGS/UHS) through creating salt caverns in the offshore Polda Basin, South Australia. The Mercury structure in the offshore part of the Polda Basin has massive halite deposits in the Neoproterozoic Kilroo Formation at depth intervals of 1376.8–2383.8 mSS (mSS: depth (m) below mean sea level) (salt pillows), 2383.8–2538.8 mSS and 2807.8–3083.8 mSS (salt interbeds). The halite is distributed over 217 km2 approximately 20 km N-S and approximately 20 km E-W, forming an anticlinal structure near Mercury 1 well. Well data (Mercury 1) suggests the total net thickness of halite is up to 1000 m over the lower Kilroo Formation and 468 m above 2000 mSS, which is within the depth range considered suitable for UHS. The potential storage site analysed is located approximately 50-70 km offshore, west of the Eyre Peninsula and approximately 200 km from Port Lincoln. The lower thermal gradient (cold basin) observed, and overburden and formation fracture gradients, are favourable for salt cavern design. The 1376.8–1539.8 mSS and 1575.6–2367.6 mSS halite intervals in Mercury 1 were identified as potential candidates for cavern creation in the future UHS program. A conceptual design of a halite cavern is presented for the depth range of 1650–2000 mSS. The cylindrical halite cavern is evaluated for two diameters (60 m and 100 m) with the calculated hydrogen storage capacity of approximately 240 GWh and 665 GWh (equivalent to approximately 7200 and 20000 tonnes), respectively. Potentially multiple halite caverns could be built within the thick halite deposits of the Mercury structure. Compared to one of Australia’s non-hydrocarbon energy storage resources currently under construction (Snowy 2.0 hydropower) at 350 GWh, UHS within a halite cavern in the offshore Polda Basin provides an alternative for large-scale energy storage that is potentially quicker to build, has less environmental footprints and is not impacted by drought.
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document
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146489
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Cnr Jerrabomberra Ave and Hindmarsh Dr GPO Box 378
Canberra
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- theme.ANZRC Fields of Research.rdf
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- EARTH SCIENCES
- ( Place )
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- Polda Basin
- ( Theme )
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- underground hydrogen storage
- ( Feature type )
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- halite cavern
- ( Feature type )
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- Kilroo Formation
- ( Feature type )
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- halite deposit
- ( Feature type )
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- storage capacity
- ( Discipline )
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- renewable hydrogen
- ( Project )
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- Exploring for the Future
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- Published_External
Publication Date
2023-03-09T05:07:41
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This publication is produced as part of Geoscience Australia's Exploring for the Future program. It is published as one report (pdf).
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Record RECORD: 2023/005
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As part of Geoscience Australia's Exploring for the Future program, Geoscience Australia has conducted a feasibility analysis on underground gas/hydrogen storage (UGS/UHS) through creating salt caverns in the offshore Polda Basin, South Australia. The results are published in one report (pdf).
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[-34.6435, -32.0219, 130.6578, 135.0884]
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