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Air Pollution Modelling Applications in Hungary: An Example of Short-term Collaboration between Switzerland and Hungary

Published online by Cambridge University Press:  24 August 2009

Martin Beniston
Affiliation:
Department of Geography, Swiss Federal Institute of Technology, Winterthurerstrasse 190, 8057 Zürich, Switzerland.

Abstract

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Type
Short Communications & Reports
Copyright
Copyright © Foundation for Environmental Conservation 1993

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References

Beniston, M. (1987). A numerical study of atmospheric pollution over complex terrain in Switzerland. Boundary Layer Meteoroi, 41, pp. 75–96.Google Scholar
Beniston, M. & Pielke, R.A. (Eds) (1987). Interactions Between Energy Transformations and Atmospheric Processes. D. Reidel (Kluwer) Academic Publishers, The Netherlands: 426 pp.Google Scholar
Beniston, M. (1988). Numerical simulations of atmospheric pollution dispersion in an Alpine valley. Supercomputing Rev., 1, pp. 23.Google Scholar
Beniston, M., Ruffieux, D., & Hertig, J.A. (1989). A combined numerical and wind-tunnel study of ventilation and air pollution episodes in a rural valley of Switzerland. Boundary Layer Meteorol., 48, pp. 129–56.CrossRefGoogle Scholar
Beniston, M. (1989). Numerical modelling of regional-scale atmospheric processes: possible applications within the framework of ERCOFTAC (European Research Community on Flow, Turbulence, and Combustion). ERCOFTAC Bulletin, 2, pp. 18–9.Google Scholar
Beniston, M. (1989). Numerical modelling of regional-scale atmospheric flows, with applications to air pollution. Proc. 5th International Symposium on Numerical Methods in Engineering, 1, Springer-Verlag: pp. 627–32.Google Scholar
Beniston, M., Wolf, J.P., Beniston-Rebetez, M., Kölsch, H.J., Rairoux, P. & Wöste, L. (1990). Use of LIDAR measurements and numerical models in air pollution research. J. Geophys. Res., 95, D7, pp. 9879–94.CrossRefGoogle Scholar
Beniston, M. (1991). Chapter 5.2 in Bienne: Climat et pollution atmosphérique d'une ville suisse, Wanner, H. (Ed.). Haupt Verlag, Bern/Stuttgart, pp. 197224.Google Scholar
Beniston, M., & Perez-Sanchez, J. (1992). An example of climate-relevant processes unresolved by present-day General Circulation Models. Environmental Conservation, 19(2), pp. 165–9, 10 figs.CrossRefGoogle Scholar
Ehinger, J. & Beniston, M. (in press). APSIS Model Intercomparison Experiment, Part A: First results of atmospheric dynamics over the region of Athens with the DREAMS numerical modeling system. Env. Software.Google Scholar
Gruber, R., Deckers, K., Beniston, M., Gengler, M. & Merazzi, S. (1991). Software development strategies for paral computer architectures. Phys. Reps (Physics Letters), 207, pp. 167214.CrossRefGoogle Scholar