Geological repositories: scientific priorities and potential high-technology transfer from the space and physics sectors

Susana O. L. Direito; Samantha Clark; Claire Cousins; Yoshiko Fujita; Jon Gluyas; Simon Harley; Richard J. Holmes; Ian B. Hutchinson; Vitaly A. Kudryavtsev; Jon Lloyd; Ian G. Main; Mark Naylor; Sam Payler; Nick Smith; Neil J.c. Spooner; Sam Telfer; Lee F. Thompson; Katinka Wouters; Joanna Wragg; Charles Cockell

doi:10.1180/minmag.2015.079.6.41

Geological repositories: scientific priorities and potential high-technology transfer from the space and physics sectors

Susana O. L. Direito, Samantha Clark, Claire Cousins, Yoshiko Fujita, Jon Gluyas, Simon Harley, Richard J. Holmes, Ian B. Hutchinson, Vitaly A. Kudryavtsev, Jon Lloyd, Ian G. Main, Mark Naylor, Sam Payler, Nick Smith, Neil J.c. Spooner, Sam Telfer, Lee F. Thompson, Katinka Wouters, Joanna Wragg, Charles Cockell

Research output: Contribution to journal › Article › peer-review

Abstract

The use of underground geological repositories, such as in radioactive waste disposal (RWD) and in carbon capture (widely known as Carbon Capture and Storage; CCS), constitutes a key environmental priority for the 21st century. Based on the identification of key scientific questions relating to the geophysics, geochemistry and geobiology of geodisposal of wastes, this paper describes the possibility of technology transfer from high-technology areas of the space exploration sector, including astrobiology, planetary sciences, astronomy, and also particle and nuclear physics, into geodisposal. Synergies exist between high technology used in the space sector and in the characterization of underground environments such as repositories, because of common objectives with respect to instrument miniaturization, low power requirements, durability under extreme conditions (in temperature and mechanical loads) and operation in remote or otherwise difficult to access environments.

Original language	English
Pages (from-to)	1651-1664
Number of pages	14
Journal	Mineralogical Magazine
Volume	79
Issue number	6
DOIs	https://doi.org/10.1180/minmag.2015.079.6.41
Publication status	Published - 1 Nov 2015

Keywords / Materials (for Non-textual outputs)

carbon dioxide
CCS (Carbon Capture and Storage)
climate change mitigation
geological disposal
geological repositories
radioactive waste disposal (RWD)
space sector
technology transfer

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Direito, S. O. L., Clark, S., Cousins, C., Fujita, Y., Gluyas, J., Harley, S., Holmes, R. J., Hutchinson, I. B., Kudryavtsev, V. A., Lloyd, J., Main, I. G., Naylor, M., Payler, S., Smith, N., Spooner, N. J. C., Telfer, S., Thompson, L. F., Wouters, K., Wragg, J., & Cockell, C. (2015). Geological repositories: scientific priorities and potential high-technology transfer from the space and physics sectors. Mineralogical Magazine, 79(6), 1651-1664. https://doi.org/10.1180/minmag.2015.079.6.41

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abstract = "The use of underground geological repositories, such as in radioactive waste disposal (RWD) and in carbon capture (widely known as Carbon Capture and Storage; CCS), constitutes a key environmental priority for the 21st century. Based on the identification of key scientific questions relating to the geophysics, geochemistry and geobiology of geodisposal of wastes, this paper describes the possibility of technology transfer from high-technology areas of the space exploration sector, including astrobiology, planetary sciences, astronomy, and also particle and nuclear physics, into geodisposal. Synergies exist between high technology used in the space sector and in the characterization of underground environments such as repositories, because of common objectives with respect to instrument miniaturization, low power requirements, durability under extreme conditions (in temperature and mechanical loads) and operation in remote or otherwise difficult to access environments.",

keywords = "carbon dioxide , CCS (Carbon Capture and Storage), climate change mitigation, geological disposal, geological repositories, radioactive waste disposal (RWD), space sector, technology transfer",

author = "Direito, {Susana O. L.} and Samantha Clark and Claire Cousins and Yoshiko Fujita and Jon Gluyas and Simon Harley and Holmes, {Richard J.} and Hutchinson, {Ian B.} and Kudryavtsev, {Vitaly A.} and Jon Lloyd and Main, {Ian G.} and Mark Naylor and Sam Payler and Nick Smith and Spooner, {Neil J.c.} and Sam Telfer and Thompson, {Lee F.} and Katinka Wouters and Joanna Wragg and Charles Cockell",

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Direito, SOL, Clark, S, Cousins, C, Fujita, Y, Gluyas, J, Harley, S, Holmes, RJ, Hutchinson, IB, Kudryavtsev, VA, Lloyd, J, Main, IG , Naylor, M, Payler, S, Smith, N, Spooner, NJC, Telfer, S, Thompson, LF, Wouters, K, Wragg, J & Cockell, C 2015, 'Geological repositories: scientific priorities and potential high-technology transfer from the space and physics sectors', Mineralogical Magazine, vol. 79, no. 6, pp. 1651-1664. https://doi.org/10.1180/minmag.2015.079.6.41

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AU - Direito, Susana O. L.

AU - Clark, Samantha

AU - Cousins, Claire

AU - Fujita, Yoshiko

AU - Gluyas, Jon

AU - Harley, Simon

AU - Holmes, Richard J.

AU - Hutchinson, Ian B.

AU - Kudryavtsev, Vitaly A.

AU - Lloyd, Jon

AU - Main, Ian G.

AU - Naylor, Mark

AU - Payler, Sam

AU - Smith, Nick

AU - Spooner, Neil J.c.

AU - Telfer, Sam

AU - Thompson, Lee F.

AU - Wouters, Katinka

AU - Wragg, Joanna

AU - Cockell, Charles

PY - 2015/11/1

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N2 - The use of underground geological repositories, such as in radioactive waste disposal (RWD) and in carbon capture (widely known as Carbon Capture and Storage; CCS), constitutes a key environmental priority for the 21st century. Based on the identification of key scientific questions relating to the geophysics, geochemistry and geobiology of geodisposal of wastes, this paper describes the possibility of technology transfer from high-technology areas of the space exploration sector, including astrobiology, planetary sciences, astronomy, and also particle and nuclear physics, into geodisposal. Synergies exist between high technology used in the space sector and in the characterization of underground environments such as repositories, because of common objectives with respect to instrument miniaturization, low power requirements, durability under extreme conditions (in temperature and mechanical loads) and operation in remote or otherwise difficult to access environments.

AB - The use of underground geological repositories, such as in radioactive waste disposal (RWD) and in carbon capture (widely known as Carbon Capture and Storage; CCS), constitutes a key environmental priority for the 21st century. Based on the identification of key scientific questions relating to the geophysics, geochemistry and geobiology of geodisposal of wastes, this paper describes the possibility of technology transfer from high-technology areas of the space exploration sector, including astrobiology, planetary sciences, astronomy, and also particle and nuclear physics, into geodisposal. Synergies exist between high technology used in the space sector and in the characterization of underground environments such as repositories, because of common objectives with respect to instrument miniaturization, low power requirements, durability under extreme conditions (in temperature and mechanical loads) and operation in remote or otherwise difficult to access environments.

KW - carbon dioxide

KW - CCS (Carbon Capture and Storage)

KW - climate change mitigation

KW - geological disposal

KW - geological repositories

KW - radioactive waste disposal (RWD)

KW - space sector

KW - technology transfer

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DO - 10.1180/minmag.2015.079.6.41

M3 - Article

SN - 0026-461X

VL - 79

SP - 1651

EP - 1664

JO - Mineralogical Magazine

JF - Mineralogical Magazine

IS - 6

ER -

Geological repositories: scientific priorities and potential high-technology transfer from the space and physics sectors

Abstract

Keywords / Materials (for Non-textual outputs)

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