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dc.contributor.authorBlaauboer RO
dc.date.accessioned2012-12-12T16:40:49Z
dc.date.available2012-12-12T16:40:49Z
dc.date.issued1993-11-30
dc.identifier743050001
dc.identifier.urihttp://hdl.handle.net/10029/258185
dc.description.abstractAbstract niet beschikbaar
dc.description.abstractIn the frame of a national program on emergency response planning and preparedness for a nuclear accident (PKOB) an Information and Documentation Centre (IDC) has been developed at the RIVM. This IDC projects for instance the effective dose equivalent due to radionuclides that may be released during a nuclear accident. One of the tools in use is an air transport model. To direct the attention to the most significant radionuclides, as far as the dose to the population due to internal radiation after inhalation and external radiation is concerned, and to speed up calculations, a method was developed to sort the 54 most important radionuclides from a nuclear release according to their contribution to dose. This method that has been turned into a spreadsheet model is described here. Also an outline is given that was used for the implementation of the method within the IDC on a HP-9000/370 computer. Using the 'radionuclide reduction' method it can be shown that for source terms of different types of accidents a quite different set of radionuclides is of importance for the effective dose equivalent during or after the passage of a cloud of radioactive material. Another result is that on the short term (upto a few days) the set of seven radionuclides that contribute the most to the effective dose equivalent (during or after passage) is not significantly influenced by the transport time of the cloud of radioactive material to the location where the dose is delivered.
dc.description.sponsorshipHIMH
dc.format.extent35 p
dc.language.isonl
dc.relation.ispartofRIVM Rapport 743050001
dc.relation.urlhttp://www.rivm.nl/bibliotheek/rapporten/743050001.html
dc.subject16nl
dc.subjectidcen
dc.subjectnuclidereductieen
dc.subjectradioactiviteiten
dc.subjectongevalsbestrijdingen
dc.titleNuclide-reductie module t.b.v. het Informatie en Documentatie Centrum (IDC) voor kernongevallenbestrijdingnl
dc.title.alternative[Radionuclide-reduction method to be used in the Information and Documentation Centre (IDC) for nuclear emergency response planning.]en
dc.typeReport
dc.date.updated2012-12-12T16:40:51Z
html.description.abstractAbstract niet beschikbaar
html.description.abstractIn the frame of a national program on emergency response planning and preparedness for a nuclear accident (PKOB) an Information and Documentation Centre (IDC) has been developed at the RIVM. This IDC projects for instance the effective dose equivalent due to radionuclides that may be released during a nuclear accident. One of the tools in use is an air transport model. To direct the attention to the most significant radionuclides, as far as the dose to the population due to internal radiation after inhalation and external radiation is concerned, and to speed up calculations, a method was developed to sort the 54 most important radionuclides from a nuclear release according to their contribution to dose. This method that has been turned into a spreadsheet model is described here. Also an outline is given that was used for the implementation of the method within the IDC on a HP-9000/370 computer. Using the 'radionuclide reduction' method it can be shown that for source terms of different types of accidents a quite different set of radionuclides is of importance for the effective dose equivalent during or after the passage of a cloud of radioactive material. Another result is that on the short term (upto a few days) the set of seven radionuclides that contribute the most to the effective dose equivalent (during or after passage) is not significantly influenced by the transport time of the cloud of radioactive material to the location where the dose is delivered.


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