Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/34590
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dc.contributor.authorMacIntosh, Amyen_UK
dc.contributor.authorKoppel, Darren J.en_UK
dc.contributor.authorJohansen, Mathew P.en_UK
dc.contributor.authorBeresford, Nicholas A.en_UK
dc.contributor.authorCopplestone, Daviden_UK
dc.contributor.authorPenrose, Bethen_UK
dc.contributor.authorCresswell, Tomen_UK
dc.date.accessioned2022-10-13T00:03:03Z-
dc.date.available2022-10-13T00:03:03Z-
dc.date.issued2022-10en_UK
dc.identifier.other106979en_UK
dc.identifier.urihttp://hdl.handle.net/1893/34590-
dc.description.abstractScale residues can accumulate on the interior surfaces of subsea petroleum pipes and may incorporate naturally occurring radioactive materials (NORM). The persistent nature of ‘NORM scale’ may result in a radiological dose to the organisms living on or near intact pipelines. Following a scenario of in-situ decommissioning of a subsea pipeline, marine organisms occupying the exteriors or interiors of petroleum structures may have close contact with the scale or other NORM-associated contaminated substances and suffer subsequent radiological effects. This case study used radiological dose modelling software, including the ERICA Tool (v2.0), MicroShield® Pro and mathematical equations, to estimate the likely radiological doses and risks of effects from NORM-contaminated scale to marine biota from a decommissioned offshore oil and gas pipeline. Using activity concentrations of NORM (226Ra, 210Po, 210Pb, 228Ra, 228Th) from a subsea pipeline from Australia, environmental realistic exposure scenarios including radiological exposures from both an intact pipe (external only; accounting for radiation shielding by a cylindrical carbon steel pipe) and a decommissioned pipeline with corrosive breakthrough (resulting in both internal and external radiological exposure) were simulated to estimate doses to model marine organisms. Predicted dose rates for both the external only exposure (ranging from 26 μGy/h to 33 μGy/h) and a corroded pipeline (ranging from 300 μGy/h to 16,000 μGy/h) exceeded screening levels for radiological doses to environmental receptors. The study highlighted the importance of using scale-specific solubility data (i.e., Kd) values for individual NORM radionuclides for ERICA assessments. This study provides an approach for conducting marine organism dose assessments for NORM-contaminated subsea pipelines and highlights scientific gaps required to undertake risk assessments necessary to inform infrastructure decommissioning planning.en_UK
dc.language.isoenen_UK
dc.publisherElsevier BVen_UK
dc.relationMacIntosh A, Koppel DJ, Johansen MP, Beresford NA, Copplestone D, Penrose B & Cresswell T (2022) Radiological risk assessment to marine biota from exposure to NORM from a decommissioned offshore oil and gas pipeline. Journal of Environmental Radioactivity, 251-252, Art. No.: 106979. https://doi.org/10.1016/j.jenvrad.2022.106979en_UK
dc.rightsThis article is available under the Creative Commons CC-BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/) and permits non-commercial use of the work as published, without adaptation or alteration provided the work is fully attributed. For commercial reuse, permission must be requested from the publisheren_UK
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/en_UK
dc.subjectDecommissioningen_UK
dc.subjectIn-situ disposalen_UK
dc.subjectNatural radionuclidesen_UK
dc.subjectDose modellingen_UK
dc.subjectContaminanten_UK
dc.titleRadiological risk assessment to marine biota from exposure to NORM from a decommissioned offshore oil and gas pipelineen_UK
dc.typeJournal Articleen_UK
dc.identifier.doi10.1016/j.jenvrad.2022.106979en_UK
dc.identifier.pmid35963215en_UK
dc.citation.jtitleJournal of Environmental Radioactivityen_UK
dc.citation.issn0265-931Xen_UK
dc.citation.volume251-252en_UK
dc.citation.publicationstatusPublisheden_UK
dc.citation.peerreviewedRefereeden_UK
dc.type.statusVoR - Version of Recorden_UK
dc.author.emaildavid.copplestone@stir.ac.uken_UK
dc.citation.date11/08/2022en_UK
dc.contributor.affiliationAustralian Nuclear Science and Technology (ANSTO)en_UK
dc.contributor.affiliationCurtin University Australiaen_UK
dc.contributor.affiliationAustralian Nuclear Science and Technology (ANSTO)en_UK
dc.contributor.affiliationCentre for Ecology & Hydrology (CEH)en_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.contributor.affiliationUniversity of Tasmaniaen_UK
dc.contributor.affiliationAustralian Nuclear Science and Technology (ANSTO)en_UK
dc.identifier.scopusid2-s2.0-85135880831en_UK
dc.identifier.wtid1847089en_UK
dc.contributor.orcid0000-0001-8438-7713en_UK
dc.contributor.orcid0000-0002-1468-9545en_UK
dc.date.accepted2022-07-28en_UK
dcterms.dateAccepted2022-07-28en_UK
dc.date.filedepositdate2022-10-11en_UK
rioxxterms.apcnot requireden_UK
rioxxterms.typeJournal Article/Reviewen_UK
rioxxterms.versionVoRen_UK
local.rioxx.authorMacIntosh, Amy|0000-0001-8438-7713en_UK
local.rioxx.authorKoppel, Darren J.|en_UK
local.rioxx.authorJohansen, Mathew P.|en_UK
local.rioxx.authorBeresford, Nicholas A.|en_UK
local.rioxx.authorCopplestone, David|0000-0002-1468-9545en_UK
local.rioxx.authorPenrose, Beth|en_UK
local.rioxx.authorCresswell, Tom|en_UK
local.rioxx.projectInternal Project|University of Stirling|https://isni.org/isni/0000000122484331en_UK
local.rioxx.freetoreaddate2022-10-12en_UK
local.rioxx.licencehttp://creativecommons.org/licenses/by-nc-nd/4.0/|2022-10-12|en_UK
local.rioxx.filename1-s2.0-S0265931X22001709-main.pdfen_UK
local.rioxx.filecount1en_UK
local.rioxx.source0265-931Xen_UK
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