Numerical Analysis of an Impact of Planned Location of Sewage Discharge on Natura 2000 Areas – The Dead Vistula Region Case Study
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References
- 1. Anderson J. D.:
Computational Fluid Dynamics. The Basics with Applications , McGraw-Hill Inc., New York (1995), pp. 1–547. - 2. Chapara S.C.:
Surface water-quality modeling . MacGraw Hill Company, New York, (1994), pp. 1–884. - 3. Crank J.:
The mathematics of diffusion . Clarendon Press, Oxford, (1975), pp. 1–414. - 4. Courant R., Friedrichs K. and Lewy H.:
On the partial difference equations of mathematical physics , IBM Journal, (1967), pp. 215–234. - 5. Czernuszenko W.:
Dispersion of pollutants in flowing surface water . Encyclopedia of Fluid Mechanics, Surface and Groundwater flow phenomena. Houston, London, Paris: Gulf Publishing Company, 10 (1990), pp. 119–168. - 6. Elder J.W.:
The dispersion of marked fluid in turbulent shear flow . J Fluid Mech. 5, (1959), pp. 544–560. - 7. Harrison R.M.:
Pollution: Causes, Effects and Control (5th ed.) . Royal Society of Chemistry, Cambridge, (2013), pp. 1–558. - 8. Jasińska E.:
Hydrology and hydrodynamics of the Dead Vistula and Vistula Cutting , (in Polish), Wydawnictwo Instytutu Budownictwa Wodnego Polskiej Akademii Nauk, Gdańsk, (2002), pp. 1–133. - 9. Kalinowska M., Rowiński P., Kubrak J., Mirosław-Świątek D.:
Scenarios of the spread of a waste heat discharge in a river – Vistula River case study . Acta Geophys 60 (2012), pp. 214–231. - 10.
Laws E.A.: Aquatic Pollution: An Introductory Text (4th ed.). Hoboken, NJ: John Wiley & Sons, (2017), pp. 1–760. - 11. LeVeque R.J.:
Finite Volume Method for Hyperbolic Problems . Cambridge University Press, New York, (2002), 1–578. - 12. Potter D. E.:
Computational Physics , John Wiley & Sons Ltd., Chichester (1980), pp.1–304. - 13. Rutherford J.C.:
River Mixing . Wiley, Chichester, (1994), pp. 1–362. - 14. Sawicki J.M., Zima P.:
The Influence of Mixed Derivatives on The Mathematical Simulation of Pollutants Transfer . 4th International Conference on Water Pollution, Slovenia, (1997), pp. 627–635. - 15. Szydłowski M., Szpakowski W., Zima P.:
Numerical simulation of catastrophic flood: the case study of hypothetical failure of the Bielkowo hydro-power plant reservoir , Acta Geophys 61 (2013), pp. 1229–1245. - 16. Szymkiewicz R.:
Numerical Modeling in Open Channel Hydraulics , Book Series: Water Science and Technology Library, vol. 83 (2010), pp. 1–419. - 17. Tan W.Y.:
Shallow Water Hydrodynamics, Mathematical Theory and Numerical Solution for a Two-dimensional System of Shallow Water Equations , Elsevier Oceanography Series, vol. 55 (1992), pp. 1–434. - 18. Tannehill J.C., Anderson D.A. and Pletcher R.H.:
Computational Fluid Mechanics and Heat Transfer (2nd ed.), Francis & Taylor, Philadelphia, (1997), pp.1–774. - 19. Waite T.D.: Principles of Water Quality, Elsevier Academic Press, Orlando, (1984), pp. 1–287.
- 20. Wielgat P., Zima P.:
Analysis of the impact of the planned sewage discharge from the ’North’ Power Plant on the Vistula water quality , 16th International Multidisciplinary Scientific GeoConference SGEM 2016, Vienna, Book 3 vol. 3 (2016), pp. 19–26. - 21. Zima P:
Mathematical Modeling of the Impact Range of Sewage Discharge on the Vistula Water Quality in the Region of Włocławek . In: Kalinowska M, Mrokowska M, Rowiński P. (eds) Free Surface Flows and Transport Processes. GeoPlanet: Earth and Planetary Sciences. Springer, Cham, (2018) pp. 489–502. - 22. Zima P.:
Modeling of the Two-Dimensional Flow Caused by Sea Conditions and Wind Stresses on the Example of Dead Vistula. Pol. Marit. Res., vol. 97 (2018), pp. 166–171.
Language: English
Page range: 76 - 84
Published on: Jul 12, 2019
Published by: Gdansk University of Technology
In partnership with: Paradigm Publishing Services
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© 2019 Piotr Zima, published by Gdansk University of Technology
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