Environmental Engineering Reference
In-Depth Information
[MAT 07] MATSON G. P., HOGG A. J., “Two-dimensional dam break flows of Herschel-
Bulkley fluids: the approach to the arrested state”.
J. Non-Newtonian Fluid Mech.
, vol. 142,
p. 79-94, 2007.
[MEI 01a] MEI C. C., LIU K. F., YUHI M., “Mud flows - Slow and fast”, in N. BALMFORTH
and A. PROVENZALE (eds.),
Geomorphological Fluid Mechanics: Selected Topics in
Geological and Geomorphological Fluid Mechanics
, p. 548-577. Berlin, Springer, 2001.
[MEI 01b] MEI C. C., YUHI M., “Slow flow of a Bingham fluid in a shallow channel of finite
width”.
J. Fluid Mech.
, vol. 431, p. 135-159, 2001.
[MON 97] MONTGOMERY D. R., BUFFINGTON J. M., “Channel-reach morphology in
mountain drainage basins”.
Geological Society of America Bulletin
, vol. 109, p. 596-611,
1997.
[MON 09] MONTGOMERY D. R., SCHMIDT K. M., DIETRICH W. E., MCKEAN J.,
“Instrumental record of debris flow initiation during rainfall: implications for modeling
slope stability”.
J. Geophys. Res.
, vol. 114, F01031, 2009.
[NIS 93] NISHIMURA K., KOGUSI K., NAKAGAWA M., “Experiments on ice-sphere flows
along an inclined chute”.
Mech. Mat.
, vol. 16, p. 205-209, 1993.
[NIS 98] NISHIMURA K., KELLER S., MCELWAINE J., NOHGUCHI Y., “Ping-pong ball
avalanche at a ski jump”.
Granul. Matter
, vol. 1, p. 51-56, 1998.
[OBR 88] O'BRIEN J. S., JULIEN P. Y., “Laboratory analysis of mudflow properties”.
J. Hydraul. Eng.
, vol. 114, p. 877-887, 1988.
[OSM 01] OSMOND D. I., GRIFFITHS R. W., “The static shape of yield strength fluids
slowly emplaced on slopes”.
J. Geophys. Res. B
, vol. 106, p. 16241-16250, 2001.
[PAP 87] PAPANASTASIOU T. C., “Flows of materials with yield”.
J. Rheol.
, vol. 31, p. 385-
404, 1987.
[PAR 01] PARSONS J. D., WHIPPLE K. X., SIMONI A., “Experimental study of the grain-
flow, fluid-mud transition in debris flows”.
J. Geol.
, vol. 109, p. 427-447, 2001.
[PAS 04] PASTOR M., QUECEDO M., GONZÁLEZ E., HERREROS M. I., FERNÁNDEZ
J. A., MIRA P., “Simple approximation to bottom friction for Bingham fluid depth
integrated models”.
J. Hydraul. Eng.
, vol. 130, p. 149-155, 2004.
[PHI 91] PHILLIPS C. J., DAVIES T. R. H., “Determining rheological parameters of debris
flow material”.
Geomorphology
, vol. 4, p. 101-110, 1991.
[POU 02] POULIQUEN O., FORTERRE Y., “Friction law for dense granular flow: application
to the motion of a mass down a rough inclined plane”.
J. Fluid Mech.
, vol. 453, p. 133-151,
2002.
[PUD 03] PUDASAINI S. P., HUTTER K., “Rapid shear flows of dry granular masses down
curved and twisted channels”.
J. Fluid Mech.
, vol. 495, p. 193-208, 2003.
[REM 05] REMAÎTRE A., MALET J.-P., MAQUAIRE O., ANCEY C., LOCAT J., “Flow
behaviour and runout modelling of a complex debris flow in a clay-shale basin”.
Earth Surf.
Processes Landforms
, p. 479-488, 2005.
