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VALUES OF DISPERSION COEFFICIENTS IN STREAMS WITH DIFFERENT FLOW CHARACTER A CASE STUDY

Sokac, Marek, Yvetta., Veliskova, Peter, Halaj

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b31/s12.106View metrics

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Title
VALUES OF DISPERSION COEFFICIENTS IN STREAMS WITH DIFFERENT FLOW CHARACTER A CASE STUDY
Authors
Sokac, Marek, Yvetta., Veliskova, Peter, Halaj
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-13-1
Language
en
Publication type
Conference Paper
References28
  1. Bansal, M. K. (1971). Dispersion in natural streams. J. Hyd. Division, HY1 1, Nov., 1867-1886.

  2. Cunge, J. A., Holly, F. M., Verwey, A. (1985). Practical aspects of computational river hydraulics. Moskva, Energoatomizdat (in Russian)

  3. Demetracopoulos, A. C., Stefan, H. G. (1983). Transverse mixing in wide and shallow river. Case study. J. Environ. Engineering ASCE, 109, No. 3, 685- 699.

  4. Elder, J.W. (1959). Dispersion of marked fluid in turbulent shear flow. J. Fluid Mech., vol. 5, Part 4, pp. 544-560.

  5. Fischer, H. B. et al. (1979). Mixing in inland and coastal wate rs. Academic press, New York.

  6. Jolánkai, G. (1992). Hydrological, chemical and biological processes of contaminant transformation and transport in river and lake systems. A state of the art report, UNESCO, Paris, 147pp.

  7. Karcher, M.J., Gerland, S., Harms, I. H., Iosjpe, M., Heldal, H.E., Kershaw, P. J., Sickel, M. (2004). The dispersion of 99Tc in the Nordic Seas and the Arctic Ocean: A comparison of model results and observations, Journal of Environmental Radioactivity 74 (1-3), pp. 185 -198.

  8. Kosorin, K. (1995). Dispersion coefficient for natural cross – sections of rivers. (in Slovak) J. Hydrol. Hydromech., 43, 1-2, 93-101.

  9. Pekárová, P., Velísková, Y. (1998). Water quality modelling in Ondava catchment. VEDA, Bratislava, Slovakia. (in Slovak).

  10. Říha, J. et al. (2000). Water quality and its mathematical modelling. NOEL, Brno, 269 p. (in Czech)

  11. Socolofsky S. A., Jirka G. H. (2005). Cven 489 -501: Special Topics in Mixing and Transport Processes in the Environment. Engineering – Lectures. 5th Edition, Coastal and Ocean Engineering Division, Texas A&M University, M.S. 3136, College Station, TX 77843-3136.

  12. Swamee, P. K., Pathak, S. K., Sohrab, M. (2000). Empirical relations for longitudinal dispersion in streams Journal of Environmental Engineering 126 (11), pp. 1056-1062.

  13. Velísková, Y. Sokáč. M., Koczka Bara, M., Dulovičová R. (2013): Hydrodynamic approach to the water quality modelling. In: Acta hydrologica Slovaca, Vol. 14, Nr. 1, s. 145 – 153. (in Slovak)

  14. Yotsukura, N.- Sayre, W.W. (1976): Transverse mixing in natu ral channels, Wat. Resour. Res., vol. 12, No. 4.

  15. Bansal, M. K. (1971). Dispersion in natural streams. J. Hyd. Division, HY1 1, Nov., 1867-1886.

  16. Cunge, J. A., Holly, F. M., Verwey, A. (1985). Practical aspects of computational river hydraulics. Moskva, Energoatomizdat (in Russian)

  17. Demetracopoulos, A. C., Stefan, H. G. (1983). Transverse mixing in wide and shallow river. Case study. J. Environ. Engineering ASCE, 109, No. 3, 685- 699.

  18. Elder, J.W. (1959). Dispersion of marked fluid in turbulent shear flow. J. Fluid Mech., vol. 5, Part 4, pp. 544-560.

  19. Fischer, H. B. et al. (1979). Mixing in inland and coastal wate rs. Academic press, New York.

  20. Jolánkai, G. (1992). Hydrological, chemical and biological processes of contaminant transformation and transport in river and lake systems. A state of the art report, UNESCO, Paris, 147pp.

  21. Karcher, M.J., Gerland, S., Harms, I. H., Iosjpe, M., Heldal, H.E., Kershaw, P. J., Sickel, M. (2004). The dispersion of 99Tc in the Nordic Seas and the Arctic Ocean: A comparison of model results and observations, Journal of Environmental Radioactivity 74 (1-3), pp. 185 -198.

  22. Kosorin, K. (1995). Dispersion coefficient for natural cross – sections of rivers. (in Slovak) J. Hydrol. Hydromech., 43, 1-2, 93-101.

  23. Pekárová, P., Velísková, Y. (1998). Water quality modelling in Ondava catchment. VEDA, Bratislava, Slovakia. (in Slovak).

  24. Říha, J. et al. (2000). Water quality and its mathematical modelling. NOEL, Brno, 269 p. (in Czech)

  25. Socolofsky S. A., Jirka G. H. (2005). Cven 489 -501: Special Topics in Mixing and Transport Processes in the Environment. Engineering – Lectures. 5th Edition, Coastal and Ocean Engineering Division, Texas A&M University, M.S. 3136, College Station, TX 77843-3136.

  26. Swamee, P. K., Pathak, S. K., Sohrab, M. (2000). Empirical relations for longitudinal dispersion in streams Journal of Environmental Engineering 126 (11), pp. 1056-1062.

  27. Velísková, Y. Sokáč. M., Koczka Bara, M., Dulovičová R. (2013): Hydrodynamic approach to the water quality modelling. In: Acta hydrologica Slovaca, Vol. 14, Nr. 1, s. 145 – 153. (in Slovak)

  28. Yotsukura, N.- Sayre, W.W. (1976): Transverse mixing in natu ral channels, Wat. Resour. Res., vol. 12, No. 4.

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