Volume 51, December 2016Innovative integrated tools and platforms for radiological emergency preparedness and post-accident response in Europe. Key results of the PREPARE European research project
|Page(s)||S125 - S127|
|Section||Enhancing of the existing decision support systems with capabilities of importance – Source term estimation based on measurements and atmospheric dispersion models|
|Published online||23 December 2016|
- Bartnicki J., Klein H., Hosseini A., Hov Ø., Haakenstad H., Lind O.C., Salbu B., Szacinski Wendel C.C. (2014) Atmospheric Transport of Radioactive Debris to Norway in Case of a Hypothetical Accident Related to the possible Recovery of K-27 Submarine. MET Report No. 21/3013. Norwegian Meteorological Institute, Oslo, Norway. [Google Scholar]
- Brännström N., Persson L. (2014) Footprints and footprint analysis for atmospheric dispersion problems. Swedish Defense Research Agency, FOI. http://arxiv.org/pdf/1409.5419v1.pdf. [Google Scholar]
- Robertson L. (2004) Extended back-trajectories by means of adjoint equations, RMK No. 105, Swedish Meteorological and Hydrological Institute. [Google Scholar]
- Simpson D., Benedictow A., Berge H., Bergström R., Emberson L.D., Fagerli H., Hay-man G.D., Gauss M., Jonson J.E., Jenkin M.E., Nyíri A., Richter C., Semeena V.S., Tsyro S., Tuovinen J.-P., Valdebenito A., Wind P. (2012) The EMEP MSC-W chemical transport model – technical description, Atmos. Chem. Phys. 12, 7825-7865. [CrossRef] [Google Scholar]
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