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Analysis of the Influence of Adriatic Sea Level on Buna River Flow

Year 2020, Volume: 15 Issue: 1, 9 - 18, 30.03.2020

Elona Abazi

Abstract

The water system of Shkodra Lake, Buna River, and Drini River with a total surface area of 19580 km2, is the largest in Albania and in Adriatic cost of Balkan Peninsula in terms of watershed and water discharge. Buna River has a total length of around 44 km and an average discharge of 680 m3/s. Around 1.5 km from flowing out of Shkodra Lake, Buna River joins Drini River, and then after meandering in a low land area Buna River discharges into the Adriatic Sea all the waters of the water system. To study the influence of Adriatic Sea level on Buna River flow, a mathematical model is set-up using SOBEK software developed from Deltares Institute, the Netherlands. The mathematical model is based on topographic survey carried out in the study area. Around 400 cross sections are used to represent the riverbed topography of Buna River and lower part of Drini River. Different sea water levels are analysed, and their effect is evaluated along Buna River for a period of low flow and high flow. Mathematical model results indicate that high water levels of Adriatic Sea due to meteorological and astronomic tide affect Buna River water levels until 21.6 km upstream for the period of high flow, and 37.5 km upstream for the period of low flow. Buna River water levels upstream of the junction with Drini River are not affected from the Adriatic Sea levels.

Keywords

Buna River water level mathematical model tide upstream

References

  • Institute of Hydro-Meteorology of Albania (IHM), Academy of Science of Albania, (1975) Climate of Albania.
  • Institute of Hydro-Meteorology of Albania (IHM), Academy of Science of Albania, (1984) Hydrology of Albania.
  • Deltares, (2013) SOBEK User Manual, Version 2.13. https://www.deltares.nl, Delft, The Netherlands.
  • Cunge J.A., Holly F.M., Verwey A, (1980) Practical Aspect of Computational River Hydraulics. Pitman Advanced Publishing Program, London. UK.
  • Stelling G.S., Duinmeijer S.P., (2003) A staggered conservative scheme for every Froude number in rapidly varied shallow water flows. International Journal For Numerical Methods in Fluids, vol. 43, pp1329-1354.
  • ASA & AASM, (2006) Topo-geodetic measurements of Buna River. Joint Project of Academy of Sciences of Albania and Academy of Sciences and Arts of Montenegro.
  • Chow V.T., (1959) Open Channel Hydraulics. McGraw-Hill Book Co. New York, USA,
  • Vidal J.P., Moisan S, Faure J.B., Dartus D, (2007) River model calibration, from guidelines to operational support tools. Environmental Modeling & Software, vol. 22/issue 11, pp 1628-1640.
  • GIZ, German Federal Enterprise for International Cooperation, (2018) Climate Change Adaptation in Transboundary Flood Risk Management, Western Balkans (CCAWB II).

Year 2020, Volume: 15 Issue: 1, 9 - 18, 30.03.2020

Elona Abazi

Abstract

References

  • Institute of Hydro-Meteorology of Albania (IHM), Academy of Science of Albania, (1975) Climate of Albania.
  • Institute of Hydro-Meteorology of Albania (IHM), Academy of Science of Albania, (1984) Hydrology of Albania.
  • Deltares, (2013) SOBEK User Manual, Version 2.13. https://www.deltares.nl, Delft, The Netherlands.
  • Cunge J.A., Holly F.M., Verwey A, (1980) Practical Aspect of Computational River Hydraulics. Pitman Advanced Publishing Program, London. UK.
  • Stelling G.S., Duinmeijer S.P., (2003) A staggered conservative scheme for every Froude number in rapidly varied shallow water flows. International Journal For Numerical Methods in Fluids, vol. 43, pp1329-1354.
  • ASA & AASM, (2006) Topo-geodetic measurements of Buna River. Joint Project of Academy of Sciences of Albania and Academy of Sciences and Arts of Montenegro.
  • Chow V.T., (1959) Open Channel Hydraulics. McGraw-Hill Book Co. New York, USA,
  • Vidal J.P., Moisan S, Faure J.B., Dartus D, (2007) River model calibration, from guidelines to operational support tools. Environmental Modeling & Software, vol. 22/issue 11, pp 1628-1640.
  • GIZ, German Federal Enterprise for International Cooperation, (2018) Climate Change Adaptation in Transboundary Flood Risk Management, Western Balkans (CCAWB II).
There are 9 citations in total.

Details

Primary Language English
Subjects Environmental Engineering
Journal Section Articles
Authors

Elona Abazi 0000-0003-2126-5238

Publication Date March 30, 2020
Acceptance Date March 18, 2020
Published in Issue Year 2020 Volume: 15 Issue: 1

Cite

APA Abazi, E. (2020). Analysis of the Influence of Adriatic Sea Level on Buna River Flow. Journal of International Environmental Application and Science, 15(1), 9-18.
AMA Abazi E. Analysis of the Influence of Adriatic Sea Level on Buna River Flow. J. Int. Environmental Application & Science. March 2020;15(1):9-18.
Chicago Abazi, Elona. “Analysis of the Influence of Adriatic Sea Level on Buna River Flow”. Journal of International Environmental Application and Science 15, no. 1 (March 2020): 9-18.
EndNote Abazi E (March 1, 2020) Analysis of the Influence of Adriatic Sea Level on Buna River Flow. Journal of International Environmental Application and Science 15 1 9–18.
IEEE E. Abazi, “Analysis of the Influence of Adriatic Sea Level on Buna River Flow”, J. Int. Environmental Application & Science, vol. 15, no. 1, pp. 9–18, 2020.
ISNAD Abazi, Elona. “Analysis of the Influence of Adriatic Sea Level on Buna River Flow”. Journal of International Environmental Application and Science 15/1 (March 2020), 9-18.
JAMA Abazi E. Analysis of the Influence of Adriatic Sea Level on Buna River Flow. J. Int. Environmental Application & Science. 2020;15:9–18.
MLA Abazi, Elona. “Analysis of the Influence of Adriatic Sea Level on Buna River Flow”. Journal of International Environmental Application and Science, vol. 15, no. 1, 2020, pp. 9-18.
Vancouver Abazi E. Analysis of the Influence of Adriatic Sea Level on Buna River Flow. J. Int. Environmental Application & Science. 2020;15(1):9-18.

“Journal of International Environmental Application and Science”