The future of geoenergy – a perspective

Gluyas, J. G.; Fowler, N.

doi:10.1144/geoenergy2023-058

Geoenergy

2024

DOI: 10.1144/geoenergy2023-058

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The future of geoenergy – a perspective

J. G. Gluyas,

N. Fowler

Abstract: Energy from Earth resources (geoenergy) in the form of coal, oil and gas has fueled global society since the Industrial Revolution began. Amongst the consequences of fueling society and associated population growth, is climate change, driven by the emission of greenhouse gases liberated through unabated combustion of fossil fuels. There is much more to Earth energy systems though than just coal oil and gas. The Earth contains, in human terms, an unlimited supply of accessible heat and pressure (diffe… Show more

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Exploring for hydrogen, helium and lithium: is it as easy as 1, 2, 3?

Gluyas,

Humphreys,

Karolytė

et al. 2024

EGC

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Hydrogen, helium and lithium, elements one two and three of the periodic table, are in demand to enable and enhance low-carbon energy technologies. Manmade hydrogen is manufactured from water via methane reforming or from electrolysis. Both are costly and have environmental impacts. Helium is commonly found in low concentrations in association with petroleum gases. Lithium is mined by brine pumping or from igneous rocks, with consequential serious environmental impacts. Were it possible to economically find hydrogen its molecular state, then surely such hydrogen would dominate the market. Similarly, helium generated without associated greenhouse gases would also be a market stimulant for a helium industry. What if hydrogen and helium could be co-produced from a single composite discovery? And what if the water leg to such hydrogen and helium deposits were rich in lithium? It, too, would be produced with costs for all elements shared. Helium is a natural product of crystalline rocks including granite and its generation can liberate hydrogen from interstitial water. These same rocks can be rich sources of lithium, and may also deliver geothermal resources. The energy transition may therefore shift what we consider to be important for energy geoscience. The basement may become as important as the basin.

show abstract

Exploring for hydrogen, helium and lithium: is it as easy as 1, 2, 3?

Gluyas,

Humphreys,

Karolytė

et al. 2024

EGC

View full text Add to dashboard Cite

show abstract

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The future of geoenergy – a perspective

Cited by 1 publication

References 84 publications

Exploring for hydrogen, helium and lithium: is it as easy as 1, 2, 3?

Exploring for hydrogen, helium and lithium: is it as easy as 1, 2, 3?

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