pdf, 12 MiB - Infoscience - EPFL
pdf, 12 MiB - Infoscience - EPFL
pdf, 12 MiB - Infoscience - EPFL
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
References<br />
de Vriend H.J. (1981). Steady Flow in Shallow Channel Bends, Communications on Hydraulics, Report no. 81-3, Department<br />
of Civil Engineering, Delft University of Technology.<br />
Donat, J. (1929). Über Sohlangriff und Geschiebetrieb. Die Wasserwirtschaft 26,27<br />
du Boys, P. (1879). Etudes du régime du Rhône et l'action exercée par les eaux sur un lit à fond de graviers indéfiniment affouillable;<br />
Annales des ponts et chaussées, 5(18) 141-195<br />
Dubois, J. (1998). Comportement hydraulique et modélisation des écoulements de surface; Ph.D. work Nr. 1890, Swiss Federal<br />
Institute of Technology (<strong>EPFL</strong>) Lausanne, Switzerland, also published as Communication 8 du Laboratoire de<br />
Constructions Hydrauliques (LCH) de l’<strong>EPFL</strong>, 1998<br />
Dysli, M. (1993). Compléments aux cours polycopiés de technologie et de mécanique des sols, 3rd Edition, Laboratoire de Méchanique<br />
des Sols, Ecole Polytechnique Fédérale (<strong>EPFL</strong>), Lausanne, Switzerland, September 1993<br />
Egiazaroff, I.V. (1965). Calculation of nonuniform sediment concentrations. Journal of the Hydraulics Division, ASCE, 91(4)<br />
Einstein, H.A. (1934). Der hydraulische oder Profilradius, Schweizerische Bauzeitung, 103(8), 147-150<br />
Einstein, H.A. (1950). The bed-load function for sediment transportation in open channel flows; Technical Bulletin 1026, U.S.<br />
Department of Agriculture, Soil Conservation Service, September 1950; 70 pp.<br />
Einstein, H.A. & Chien, N. (1953). Transport of sediment mixtures with large range of grain sizes; MRD Series 2; Institute of<br />
Engineering Research; University of California, Berkeley, 1953<br />
Einstein, H.A. & El Samni, S.A. (1949). Hydrodynamic forces on a rough wall, in Review of modern physics 21, McGraw<br />
Hill, London, 491 pp.<br />
Engelund, F. (1974). Flow and bed topography in channel bends, Journal of the Hydraulics Division, ASCE, 100(11), 1631-<br />
1648, November 1974<br />
Engelund, F. (1976). Errata to “Flow and bed topography in channel bends”, Journal of the Hydraulics Division, ASCE,<br />
102(3), 416-418, March 1976<br />
Engelund, F. & Hansen, E. (1967). A monograph on sediment transport in alluvial streams, Teknish Forlag, Technical<br />
Press, Copenhagen, Denmark, 62 pp.<br />
Falcon, A.M. (1979). Analysis of flow in alluvial channel bends, Ph.D. thesis, University of Iowa, Iowa City<br />
Falcon, A.M. & Kennedy, J.F. (1983). Flow in alluvial-river curves; Journal of Fluid Mechanics 133, 1-16<br />
Fargue (1868). Etude sur la corrélation entre la configuration du lit et la profondeur d'eau dans les rivières à fond mobile, Annales des<br />
ponts et chaussées, 1868<br />
Fehr, R. (1987). Geschiebeanalysen in Gebirgsflüssen, Mitteilung 92 der Versuchsanstalt für Wasserbau, Hydrologie und<br />
Glaziologie (VAW), ETHZ, Zürich, Switzerland, 1987, 139 pp.<br />
Gairola, A. (1996). Finite element solutions of fluid flow with heat transfer past obstructions, Ph.D. thesis Nr. 247-667, Department<br />
of Civil Engineering, University of Roorkee, India, September 1996, 2<strong>12</strong> pp.<br />
Garbrecht, G. (1953) Wasserabfluss in gekrümmten Gerinnen, Die Wasserwirtschaft 44(2+3), 29-35, 66-71<br />
Gaudio, R., Marion, A. & Bovolin, V. (2000). Morphological effects of bed sills in degrading rivers, Journal of<br />
Hydraulic Research, IAHR, 38(2)<br />
Gessler, J. (1965). Der Geschiebetriebbeginn bei Mischungen untersucht an natürlichen Abpflästerungerscheinungen in Kanälen;<br />
Ph.D. work No. 3711, Eidgenössische Technische Hochschule (ETHZ), Zürich, Switzerland; also published<br />
as: Mitteilung 69 der Versuchsanstalt für Wasserbau, Hydrologie und Glaziologie (VAW), ETHZ, Zürich,<br />
Switzerland, 1966, 67 pp.<br />
translated by E.A. Prych: The beginning of bedload movement of mixtures investigated as natural armoring in channels; Keck<br />
Laboratory of Hydraulics and Water Resources. Pasadena: California Institute of Technology; October 1968,<br />
89 pp.<br />
Gessler, J. (1970). Self-stabilizing tendencies of alluvial channels, Journal of the Waterways, harbors and coastal engineering<br />
Division, ASCE, 96(2), 235-249<br />
Gessler, J. (1990). Friction factor of armored river beds, Journal of Hydraulic Engineering, ASCE, 116(4), 531-543<br />
Graf, W.H. (1971). Hydraulics of sediment transport, McGraw Hill, London, 513 pp.<br />
Graf, W.H. (1984). Hydraulics of sediment transport, Water Research Publications, LLC (reprinted)<br />
Graf, W.H. & Altinakar, M. (1998). Fluvial hydraulics, Book, John Wiley and Sons, 682 pp.<br />
Günter A. (1971). Die kritische mittlere Sohlenschubspannung bei Geschiebemischungen unter Berücksichtigung der Deckschichtbildung<br />
und der turbulenzbedingten Sohlenschubspannungsschwankungen, Mitteilung. 3 der Versuchsanstalt für Wasserbau<br />
Hydrologie und Glaziologie (VAW) der Eidgenössische Technische Hochschule (ETHZ), Zürich, Switzerland<br />
Günther, O. (2001). Investigation of the influence of macro-roughness elements on the erosion process in a curved open channel,<br />
Diploma work at the Laboratoire de Constructions Hydrauliques (LCH), Ecole Polytechnique Fédérale de<br />
Lausanne (<strong>EPFL</strong>), Switzerland, July 2001, 63 pp.<br />
Habib A.M. (1986). Turbulent structure in a river bend, Journal of Hydraulic Engineering, ASCE 1<strong>12</strong>(8), 657-669, August<br />
1986<br />
Harrison, A.S. (1950). Report on a special investigation of bed sediment segregation in a degrading bed, 33(1), University of California,<br />
Berkeley, USA (cited in Hunziker 1995)<br />
page 206 / November 9, 2002<br />
Wall roughness effects on flow and scouring