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THE USE OF THE MUSKINGUM-CUNGE METHOD FOR THE SIMULATION OF ARTIFICIAL FLOW WAVES FROM PEAKING HYDROPOWER OPERATION (A CASE STUDY ON THE DANUBE, DOWNSTREAM THE GABCIKOVO HYDROPOWER)

Sulek, Peter, Dusicka, Peter, Sebestova, Zuzana

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b31/s12.101View metrics

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Title
THE USE OF THE MUSKINGUM-CUNGE METHOD FOR THE SIMULATION OF ARTIFICIAL FLOW WAVES FROM PEAKING HYDROPOWER OPERATION (A CASE STUDY ON THE DANUBE, DOWNSTREAM THE GABCIKOVO HYDROPOWER)
Authors
Sulek, Peter, Dusicka, Peter, Sebestova, Zuzana
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
References30
  1. Maidment D. R. & Fread D.L.: Handbook of Hydrology, Flow Routing, – chap. 10, ISBN 0070397325 / 9780070397323, McGraw-Hill, 1424 pages, 1993.

  2. SinghV.P.: Hydrologic Systems. Rainfall-Runoff Modelling. 1. Prentice Hall, New Jersey, USA, 1998.

  3. France P.W.: Hydrologic routing with a microcomputer. Adv. Eng. Software 7 (1), pp 8-12, 1985.

  4. Haktanir T. & Ozmen H.: Comparison of hydraulic and hydrologic routing on three long reservoirs. J. Hydraul. Eng. 123 (2): pp 153-156, 1997.

  5. McCarthy G.T.: The unit hydrograph and flood routing, Conference of North Atlantic Division, US Army Corps of Engineers, New London, CT. US Engineering, 1938.

  6. Ponce V. M. & Yevjevich V.,. Muskingum Cunge Method with Variable Pa rameters, J. of Hydraulics Div., ASCE, 104(HY12): pp 1663-1667, 1978.

  7. Tang X. & Knight D.W. & Samuels P.G.: Wave speed-discharge relationship from cross-section survey, Proc. Instn. of Civil Engineers, Water and Maritime Engineering, London, 148, June, Issue 2, pp 81-96, 2001.

  8. Linsley R. K. & Kohler M. A. & Paulhus J. L. H.: Hydrology for Engineers, McGraw-Hill, New York, 1986.

  9. Cunge, J. A.: On the Subject of a Flood Propagation Computation Method (Muskingum Method), Journal of Hydraulic Research, v. 7, no. 2, pp 205-230, 1969.

  10. Nerc : Flood-Routing Studies. Report No V-III. Natural Environment Research Council, London, UK, 1975.

  11. Szolgay J. & Šúrek P. & Danáčová M. & Jurčák S.: Kalibrácia multilineárneho transformačného hydrologického modelu pomocou princípov genetického programovania. Acta Hydrologica Slovaca. Ročník 8, No. 1, ISSN 1335-6291, 2007.

  12. Baláž M. & Danáčová M. & Szolgay J.: On the use of the Muskingum method for simulation of flood waves movements. Slovak Journal of Civil Engineering. No. 3, pp -20., 2010.

  13. Spál, P. & Szolgay, J. & Danáčová, M.: Voľba účelovej funkcie pri optimalizácii parametrov multilineárneho transformačného modelu KLN pomocou GA. Acta Hydrologica Slovaca. Ročník 9, No. 2, pp 243-251, ISSN 1335-6291, 2008.

  14. Mohan S.: Parameter Estimation of Nonlinear Muskingum Models Using Genetic Algorithm, J. Hydr. Engrg. Volume 123, Issue 2, pp 137-142, 1997.

  15. Čistý M. & Bajtek Z.: Hybrid method for optimal design of water distribution system (Hybridná metóda pre návrh distribučnych systémov rozvodu vody), J.Hydrol. Hydromech., Vol. 57, No. 2, 2009 [In Slovak].

  16. Maidment D. R. & Fread D.L.: Handbook of Hydrology, Flow Routing, – chap. 10, ISBN 0070397325 / 9780070397323, McGraw-Hill, 1424 pages, 1993.

  17. SinghV.P.: Hydrologic Systems. Rainfall-Runoff Modelling. 1. Prentice Hall, New Jersey, USA, 1998.

  18. France P.W.: Hydrologic routing with a microcomputer. Adv. Eng. Software 7 (1), pp 8-12, 1985.

  19. Haktanir T. & Ozmen H.: Comparison of hydraulic and hydrologic routing on three long reservoirs. J. Hydraul. Eng. 123 (2): pp 153-156, 1997.

  20. McCarthy G.T.: The unit hydrograph and flood routing, Conference of North Atlantic Division, US Army Corps of Engineers, New London, CT. US Engineering, 1938.

  21. Ponce V. M. & Yevjevich V.,. Muskingum Cunge Method with Variable Pa rameters, J. of Hydraulics Div., ASCE, 104(HY12): pp 1663-1667, 1978.

  22. Tang X. & Knight D.W. & Samuels P.G.: Wave speed-discharge relationship from cross-section survey, Proc. Instn. of Civil Engineers, Water and Maritime Engineering, London, 148, June, Issue 2, pp 81-96, 2001.

  23. Linsley R. K. & Kohler M. A. & Paulhus J. L. H.: Hydrology for Engineers, McGraw-Hill, New York, 1986.

  24. Cunge, J. A.: On the Subject of a Flood Propagation Computation Method (Muskingum Method), Journal of Hydraulic Research, v. 7, no. 2, pp 205-230, 1969.

  25. Nerc : Flood-Routing Studies. Report No V-III. Natural Environment Research Council, London, UK, 1975.

  26. Szolgay J. & Šúrek P. & Danáčová M. & Jurčák S.: Kalibrácia multilineárneho transformačného hydrologického modelu pomocou princípov genetického programovania. Acta Hydrologica Slovaca. Ročník 8, No. 1, ISSN 1335-6291, 2007.

  27. Baláž M. & Danáčová M. & Szolgay J.: On the use of the Muskingum method for simulation of flood waves movements. Slovak Journal of Civil Engineering. No. 3, pp -20., 2010.

  28. Spál, P. & Szolgay, J. & Danáčová, M.: Voľba účelovej funkcie pri optimalizácii parametrov multilineárneho transformačného modelu KLN pomocou GA. Acta Hydrologica Slovaca. Ročník 9, No. 2, pp 243-251, ISSN 1335-6291, 2008.

  29. Mohan S.: Parameter Estimation of Nonlinear Muskingum Models Using Genetic Algorithm, J. Hydr. Engrg. Volume 123, Issue 2, pp 137-142, 1997.

  30. Čistý M. & Bajtek Z.: Hybrid method for optimal design of water distribution system (Hybridná metóda pre návrh distribučnych systémov rozvodu vody), J.Hydrol. Hydromech., Vol. 57, No. 2, 2009 [In Slovak].

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