Projet National Erinoh - Guide Ingénierie - Volume 3

Guide ERINOH – Volume 3 322 Guide ERINOH – Érosion interne dans les ouvrages hydrauliques School of Civil and Environmental Engineering, The University of New South Wales, Sydney, ISBN 85841 396 5. Wan, C.F. and Fell, R. (2007). Investigation of internal erosion by the process of suffusion in embankment dams and their foundations. In Internal Erosion of Dams and their Foundations. Editors R. Fell and J.J Fry. Taylor and Francis, London. 219-234. Wan. C.F., and Fell, R. (2008). Assessing the Potential of Internal erosion and Suffusion inEmbankmentDams andTheir Foundations. Journal ofGeotechnical and Geoenvironmental Engineering, ASCE, Vol 134, No. 3, 410-407. Weijers, J.B.A and Sellmeijer, J.B. (1993). A new model to deal with the piping mechanism on “Filters in Geotechnical and Hydraulic Engineering. Brauns, Herbaum and Schuler (editors), Balkema, Rotterdam. Witt K. J., Salehi Sadaghiani M. R. (2012). Identifying of mobile particles in internally unstable soils. ICSE6 Paris – August 27-31, 2012 Paper 49 pages 845-849. Witt K. J., M. R. Salehi Sadaghiani M. R. (2012). Analysis of Internal Stability of Widely Graded Soils Based on Identification of Mobile Particles. ICSE6 Paris – August 27-31, 2012 Paper 50 pages 258-264. Wörman, A. & Olafsdottir, R. (1992), «Erosion in a granular medium interface», Journal of Hydraulic Research 30(5), 639-655. Wolff, T.F. (2002). Performance of levee under-seepage controls: A critical review. US Army Corps of Engineers, Engineering Research Center, Geotechnical and Structural Laboratory, ERDC/GSL TR-02-19. Ziems, J. (1969). “Beitrag zur Kontakterosion nichtbindiger Erdstoffe.” Ph.D. thesis, Fakultät für Bau- Wasser- und Forstwesen, Dresden, Germany, 1969.