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Investigating and defining radiation dose risk factors, derived from terrestrial risk assessments, for probabilistic risk assessments for radiation exposure during very high altitude ‘near space’ flights for varying space weather conditions

Investigating and defining radiation dose risk factors, derived from terrestrial risk assessments, for probabilistic risk assessments for radiation exposure during very high altitude ‘near space’ flights for varying space weather conditions
Investigating and defining radiation dose risk factors, derived from terrestrial risk assessments, for probabilistic risk assessments for radiation exposure during very high altitude ‘near space’ flights for varying space weather conditions

Current space tourism ventures focus on three specific areas: long duration very high-altitude flights; also referred to as ‘near space’ flights, sub-orbital flights and visits to Low Earth Orbit (LEO). In the forthcoming decades, space travel is expected to become as commonplace as transatlantic flights. Consequently, it becomes crucial to consider the potential health implications of cosmic radiation exposure during these commercial ventures, particularly in light of sudden changes in space weather, such as ground-level enhancements (GLEs) or solar particle events (SPEs), which can have profound effects on the well-being of crew members and passengers. This paper focuses on the exposure environment and associated risk assessment for very high altitude ‘near space’ flights to the stratosphere. The current probabilistic risk assessment of the hazards for such flights is severely constrained, as the necessary dose risk factor for potential radiation exposure remains undefined for prospective space tourists. Here we examine the existing terrestrial approach to deterministic and probabilistic risk assessment for radiation exposure, specifically within the civil nuclear industry, and its applicability to ‘near space’ very high-altitude flights. We propose a revised probabilistic risk assessment methodology, including a bespoke dose risk factor, for ‘near space’ flights. Furthermore, we delve into the distinctive exposure events associated with ‘near space’ flights, explore the impact of potential variations in space weather on radiation exposure, and evaluate potential dose risk factors for utilization in probabilistic risk calculations for flight participants. Plain Language Summary: An investigation into the acceptability and probability of risks associated with potential radiation exposure from flying to ‘near space’ within newly designed craft at very high altitude in the upper atmosphere above the Earth. Comparing and assessing the applicability of terrestrial nuclear industry risk assessment methodology to space tourism and the associated radiation risks.

Deterministic risk, Dose risk factor, Flights, Near space, Probabilistic risk, Radiation, Risk, Risk management, Safety, Space weather, Very high altitude
2468-8967
Rees, C.T.
1834a92c-4544-4dc9-8631-90e535d8b946
Ryden, K.A.
d299f0d3-43a1-4cfd-92cf-36ee9e0adc49
Woodcock, T.
088c1db0-d599-4937-aef7-0582d2d90964
Brito, M.
82e798e7-e032-4841-992e-81c6f13a9e6c
Rees, C.T.
1834a92c-4544-4dc9-8631-90e535d8b946
Ryden, K.A.
d299f0d3-43a1-4cfd-92cf-36ee9e0adc49
Woodcock, T.
088c1db0-d599-4937-aef7-0582d2d90964
Brito, M.
82e798e7-e032-4841-992e-81c6f13a9e6c

Rees, C.T., Ryden, K.A., Woodcock, T. and Brito, M. (2024) Investigating and defining radiation dose risk factors, derived from terrestrial risk assessments, for probabilistic risk assessments for radiation exposure during very high altitude ‘near space’ flights for varying space weather conditions. Journal of Space Safety Engineering. (doi:10.1016/j.jsse.2024.07.002).

Record type: Article

Abstract

Current space tourism ventures focus on three specific areas: long duration very high-altitude flights; also referred to as ‘near space’ flights, sub-orbital flights and visits to Low Earth Orbit (LEO). In the forthcoming decades, space travel is expected to become as commonplace as transatlantic flights. Consequently, it becomes crucial to consider the potential health implications of cosmic radiation exposure during these commercial ventures, particularly in light of sudden changes in space weather, such as ground-level enhancements (GLEs) or solar particle events (SPEs), which can have profound effects on the well-being of crew members and passengers. This paper focuses on the exposure environment and associated risk assessment for very high altitude ‘near space’ flights to the stratosphere. The current probabilistic risk assessment of the hazards for such flights is severely constrained, as the necessary dose risk factor for potential radiation exposure remains undefined for prospective space tourists. Here we examine the existing terrestrial approach to deterministic and probabilistic risk assessment for radiation exposure, specifically within the civil nuclear industry, and its applicability to ‘near space’ very high-altitude flights. We propose a revised probabilistic risk assessment methodology, including a bespoke dose risk factor, for ‘near space’ flights. Furthermore, we delve into the distinctive exposure events associated with ‘near space’ flights, explore the impact of potential variations in space weather on radiation exposure, and evaluate potential dose risk factors for utilization in probabilistic risk calculations for flight participants. Plain Language Summary: An investigation into the acceptability and probability of risks associated with potential radiation exposure from flying to ‘near space’ within newly designed craft at very high altitude in the upper atmosphere above the Earth. Comparing and assessing the applicability of terrestrial nuclear industry risk assessment methodology to space tourism and the associated radiation risks.

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Accepted/In Press date: 5 July 2024
e-pub ahead of print date: 14 July 2024
Published date: 14 July 2024
Additional Information: Publisher Copyright: © 2024 International Association for the Advancement of Space Safety
Keywords: Deterministic risk, Dose risk factor, Flights, Near space, Probabilistic risk, Radiation, Risk, Risk management, Safety, Space weather, Very high altitude

Identifiers

Local EPrints ID: 492177
URI: http://eprints.soton.ac.uk/id/eprint/492177
DOI: doi:10.1016/j.jsse.2024.07.002
ISSN: 2468-8967
PURE UUID: c165b133-abd8-4550-9c4c-867569aab02a
ORCID for M. Brito: ORCID iD orcid.org/0000-0002-1779-4535

Catalogue record

Date deposited: 19 Jul 2024 16:33
Last modified: 31 Jul 2024 01:42

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Contributors

Author: C.T. Rees
Author: K.A. Ryden
Author: T. Woodcock
Author: M. Brito ORCID iD

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