Environmental Engineering Reference
In-Depth Information
[HOG 09] HOGG A. J., MATSON G. P., “Slumps of viscoplastic fluids on slopes”.
J. Non-
Newtonian Fluid Mech.
, vol. 158, p. 101-112, 2009.
[HOG 04] HOGG A. J., PRITCHARD D., “The effects of hydraulic resistance on dam-break
and other shallow inertial flows”.
J. Fluid Mech.
, vol. 501, p. 179-212, 2004.
[HUA 97] HUANG X., GARCÌA M. H., “A perturbation solution for Bingham-plastic
mudflows”.
J. Hydraul. Eng.
, vol. 123, p. 986-994, 1997.
[HUA 98] HUANG X., GARCÌA M. H., “A Herschel-Bulkley model for mud flow down a
slope”.
J. Fluid Mech.
, vol. 374, p. 305-333, 1998.
[HUN 94] HUNT B., “Newtonian fluid mechanics treatment of debris flows and avalanches”.
J. Hydraul. Eng.
, vol. 120, p. 1350-1363, 1994.
[IVE 93] IVERSON R. M., LAHUSEN R. G., “Friction in debris flows: inferences from large-
scale flume experiments”, in A.S.O.C. ENGINEERS (ed.),
Hydraulic Engineering '93
, vol.
2, 1993.
[IVE 97] IVERSON R. M., “The physics of debris flows”.
Rev. Geophys.
, vol. 35, p. 245-296,
1997.
[IVE 01] IVERSON R. M., DENLINGER R. P., “Flow of variably fluidized granular masses
across three-dimensional terrain. 1. Coulomb mixture theory”.
J. Geophys. Res.
, vol. 106,
p. 537-552, 2001.
[IVE 03a] IVERSON R. M., “The debris-flow rheology myth”, in C.-L. CHEN and
D. RICKENMANN (eds.),
Debris flow Mechanics and Mitigation Conference
, p. 303-314.
Davos, Mills Press, 2003a.
[IVE 03b] IVERSON R. M., “How should mathematical models of geomorphic processus be
judged?” in P. WILCOCK and R. IVERSON (eds.),
Prediction in Geomorphology
,p.83-
94. Washington D.C., American Geophysical Union, 2003b.
[IVE 05] IVERSON R. M., “Debris-flow mechanics”, in M. JAKOB and O. HUNGR (eds.),
Debris-flow Hazards and Related Phenomena
, p. 105-134. Berlin, Springer, 2005.
[JEN 94] JENKINS J. T., “Rapid granular flow down inclines”.
Appl. Mech. Rev.
, vol. 47,
p. 240-244, 1994.
[JOH 84] JOHNSON A. M., RODINE J. R., “Debris flow”, in D. BRUNSDEN and D. B.
PRIOR (eds.),
Slope Instability
, p. 257-362. Chichester, John Wiley & Sons, 1984.
[JOP 05] JOP P., FORTERRE Y., POULIQUEN O., “Crucial role of side walls for granular
surface flows: consequences for the rheology”.
J. Fluid Mech.
, vol. 541, p. 167-192, 2005.
[JOS 04] JOSSERAND C., LAGRÉE P.-Y., LHUILLIER D., “Stationary shear flows of dense
granular materials: a tentative continuum modelling”.
Eur. Phys. J. E
, vol. 14, p. 127-135,
2004.
[KAR 00] KARELSKY K. V., PAPKOV V. V., PETROSYAN A. S., TSYGANKOV D. V.,
“Particular solutions of shallow-water equations over a non-flat surface”.
Phys. Lett. A
, vol.
271, p. 341-348, 2000.
[KEL 03] KELLER J. B., “Shallow-water theory for arbitrary slopes of the bottom”.
J. Fluid
Mech.
, vol. 489, p. 345-348, 2003.