Irodalomjegyzék

Ács, F., 2004: A talaj-növény-légkör rendszer modellezése a meteorológiában: A növényi párolgás és a talaj kapcsolata. Eötvös Kiadó, Budapest, 117 oldal. ISBN 963 463 719 1

Brandt, J., 1998: Modelling transport, dispersion and deposition of passive tracers from accidental releases. PhD. Thesis, Ministry of Environment and Energy National Environmental Research institute and Ministry of research and Information Technology Risø National Laboratory, Denmark, Roskilde.

Bubbico, R. and Mazzarotta, B., 2008: Accidental release of toxic chemicals: Influence of the main input parameters on consequence calculation, Journal of Hazardous Materials, 151, 394–406.

Leelőssy, Á., Mészáros, R. and Lagzi. I., 2011: Short and long term dispersion patterns of radionuclides in the atmosphere around the Fukushima Nuclear Power Plant. Journal of Environmental Radioactivity 102, 12, 1117–1121.

Leelőssy, Á., Lagzi., I. and Mészáros, R., 2012: Sensitivity study of OpenFOAM model for local scale atmospheric dispersion simulations. Geophysical Research Abstracts 14, EGU2012-11925.

Mészáros, R., Vincze, Cs. and Lagzi, I., 2010: Simulation of Accidental Release Using a Coupled Transport (TREX) and Numerical Weather Prediction (ALADIN) model, Időjárás 114, 1–2, 101–120.

Mészáros, R., Leelőssy, Á., Vincze, Cs., Szűcs, M., Kovács, T. and Lagzi, I., 2012a: Estimation of the dispersion of an accidental release of radionuclides and toxic materials based on weather type classification. Theoretical and Applied Climatology 107, 375–387.

Mészáros, R., Molnár F., Jr., Izsák, F., Kovács, T., Dombovári, P., Steierlein, Á., Nagy, R. and Lagzi, I., 2012b: Environmental modeling using graphical processing unit with CUDA. Időjárás 116, 4,  237–251.

Molnár, F. Jr., Szakály, T., Mészáros, R. and Lagzi, I., 2010: Air pollution modelling using a Graphics Processing Unit with CUDA. Computer Physics Communications 181, 105–112.

Pudykiewicz, J., 1988: Numerical simulation of the transport of radioactive cloud from the Chernobyl nuclear accident. Tellus B, 40, 241–259.

SWCA Environmental Consultants, 2010: Dispersion modeling of hydrogen sulfide at Cimarex Rands Butte Project using ALOHA. Rands Butte Gas Development Project Environmental Assessment, Sheridan, Wyoming, USA.