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MATCH development during the EURANOS project

Published online by Cambridge University Press:  16 September 2010

L. Robertson*
Affiliation:
SMHI, Norrköping, Sweden
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Abstract

The Multi-scale Atmospheric Transport and Chemistry Model (MATCH) is used in the RODOS(Real-time On-line decision Support) system since more than 10 years for the long rangeatmospheric transport and dispersion calculations. With the start of the EURANOS project,several functionalities of the model at that time should be further enhanced. Thisincluded the better use of the meteorological information available in the numericalforecast data and the coupling to the source term data base of the RODOS system.

Type
Article
Copyright
© EDP Sciences, 2010

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References

Carmichael, G.R., Hayami, H., Calori, G., Uno, I., Cho, S.Y., Engardt, M., Kim, S.-B., Ichikawa, Y., Ikeda, Y., Ueda, H., Amann, M. (2001) Model intercomparison study of long range transport and sulfur deposition in East Asia (MICS-Asia), Water Air and Soil Pollut. 130, 51-62.CrossRefGoogle Scholar
Päsler-Sauer, J., Comparison and Validation Exercises of the Three Atmospheric Dispersion Models in RODOS, Radioprotection 45, S89-S96.CrossRef
Robertson, L., Langner, J., Engardt, M. (1999) An Eulerian limited-area atmospheric transport model, J. Appl. Met. 38, 190-210.2.0.CO;2>CrossRefGoogle Scholar
van Loon, M., Vautard, R., Schaap, M., Bergström, R., Bessagnet, B., Brandt, J., Builtjes, P.J.H., Christensen, J.H., Cuvelier, K., Graf, A., Jonson, J.E., Krol, M., Langner, J., Roberts, P., Rouil, L., Stern, R., Tarrasón, L., Thunis, P., Vignati, E., White, L., Wind, P. (2007) Evaluation of long-term ozone simulations from seven regional air quality models and their ensemble average, Atmos. Envi. 41, 2083-2097.CrossRefGoogle Scholar