Free Access
Issue
Radioprotection
Volume 51, December 2016
Innovative integrated tools and platforms for radiological emergency preparedness and post-accident response in Europe. Key results of the PREPARE European research project
Page(s) S149 - S151
Section Enhancing of the existing decision support systems with capabilities of importance – Aquatic dispersion and consequence modelling
DOI https://doi.org/10.1051/radiopro/2016053
Published online 23 December 2016
  • Bailly du Bois P., Garreau P., Laguionie P., Korsakissok I. (2014) Comparison between modelling and measurement of marine dispersion, environmental half-time and 137-Cs inventories after the Fukushima Daiichi accident, Ocean Dyn. 64, 361-383. [CrossRef]
  • Estournel C., Bosc E., Bocquet M., Ulses C., Marselaix P., Winiarek V., Osvath I., Nguyen C., Duhaut T., Lyard F., Michaud H., Auclair F. (2012) Assessment of the amount of 137-Cs released into the Pacific Ocean after the Fukushima accident and analysis of its dispersion in Japanese coastal waters, J. Geophys. Res. 117, C1014. [CrossRef]
  • Iosjpe M., Karcher M., Gwynn J., Harms I., Gerdes R., Kauker F. (2009) Improvement of the dose assessment tools on the basis of dispersion of the 99-Tc in the Nordic Seas and the Arctic Ocean, Radioprotection 44 (5), 531-536. [CrossRef]
  • Kobayashi T., Otosaka S., Togawa O., Hayashi K. (2007) Development of a nonconservative radionuclides dispersion model in the ocean and its application to surface cesium-137 dispersion in the Irish Sea, J. Nucl. Sci. Technol. 44 (2), 238-247. [CrossRef]
  • Lamego F.F. (2013) Advanced nuclear reactors and tritium impacts: modeling the aquatic pathway, Progr. Nucl. Energy 68, 9-22. [CrossRef]
  • Lepicard S., Heling R., Maderich V. (2004) POSEIDON/RODOS model for radiological assessment of marine environment after accidental releases: application to coastal areas of the Baltic, Black and North seas, J. Environ. Radioact. 72 (1–2), 153-161. [CrossRef] [PubMed]
  • Maderich V., Heling R., Bezhenar R., Brovchenko I., Jenner H., Koshebutskyy V., Kuschan A., Terletska K. (2008) Development and application of 3D numerical model THREETOX to the prediction of cooling water transport and mixing in the inland and coastal waters, Hydrol. Process. 22, 1000-1013. [CrossRef]
  • Min B.I., Periáñez R., Kim I.G., Suh K.S. (2013) Marine dispersion assessment of 137-Cs released from the Fukushima Nuclear Accident, Mar. Pollut. Bull. 72, 22-33. [CrossRef]
  • Periáñez R., Suh K.-S., Min B.-I. (2012) Local scale marine modelling of Fukushima releases. Assessment of water and sediment contamination and sensitivity to water circulation description, Mar. Pollut. Bull. 64, 2333-2339. [CrossRef]
  • Periáñez R., Casas-Ruíz M., Bolívar J.P. (2013) Tidal circulation, sediment and pollutant transport in Cádiz Bay (SW Spain): a modelling study, Ocean Eng. 69, 60-69. [CrossRef]
  • Psaltaki M., Florou H., Trabidou G., Markatos N.C. (2010) Modelling and assessment of pollutant impact on marine environments. In: 2nd WSEAS International Conference on Computer Engineering and Applications (CEA'10), pp. 176-180. Harvard University, Cambridge, USA.
  • Roland A., Zhang Y.J., Wang H.V., Meng Y., Teng Y.C., Maderich V., Brovchenko I., Dutour-Sikiric M., Zanke U. (2012) A fully coupled 3D wave-current interaction model on unstructured grids, J. Geophys. Res. 117 (C00J33), 1-18.

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.