Environmental Engineering Reference
In-Depth Information
[KUL 77] KULIKOVSKIY A. G., SVEHNIKOVA E. I., “Model dlja rascheta dvizhija pilevoi
snezhnoi lavini” (a model for computing powdered snow avalanche motion) [in Russian].
Materiali Glatsiologicheskih Issledovanii [Data of Glaciological Studies]
, vol. 31, p. 74-
80, 1977.
[LAC 77] LA CHAPELLE E. R., “Snow avalanches: a review of current research and
applications”.
J. Glaciol
., vol. 19, p. 313-324, 1977.
[LAC 86] LACKINGER B., “Stability and fracture of the snow pack for glide avalanches”, in
H. GUBLER and B. SALM (eds.),
Avalanche Formation, Movement and Effects
, p. 229-
241. Davos, IAHS, Wallingford, Oxfordshire, UK, 1986.
[LAG 27] LAGOTALA H.,
Étude de l'avalanche des Pélerins (Chamonix)
. Genève: Société
Générale d'Imprimerie, 1927.
[LEV 02] LEVEQUE R. J.,
Finite Volume Methods for Hyperbolic Problems
. Cambridge:
Cambridge University Press, 2002.
[LIE 80] LIED K., BAKKEHØI S., “Empirical calculations of snow avalanche run-out
distances based on topographic parameters”.
J. Glaciol
., p. 165-177, 1980.
[LIE 89] LIED K., TOPPE R., “Calculation of maximum snow avalanche runout distance
based on topographic parameters identified by digital terrain models”.
Ann. Glaciol
., vol.
13, p. 164-169, 1989.
[MAE 93] MAENO O., “Rheological characteristics of snow flows”, in L. BUISSON
(ed.)
International Workshop on Gravitational Mass Movements
, p. 209-220. Grenoble,
Cemagref, 1993.
[MCC 87] MCCLUNG D. M., LIED K., “Statistical and geometrical definition of snow
avalanche runout”.
Cold Regions Sci. Technol
., vol. 13, p. 107-119, 1987.
[MCC 91] MCCLUNG D. M., MEARS A. I., “Extreme value prediction of snow avalanche
runout”.
Cold Regions Sci. Technol
., vol. 19, p. 163-175, 1991.
[MCC 93] MCCLUNG D. M., SCHAERER P. A.,
The Avalanche Handbook
. Seattle, The
Mountaineers, 1993.
[MCC 01] MCCLUNG D. M., “Extreme avalanche runout: a comparison of empirical
models”.
Can. Geotech. J
., vol. 38, p. 1254-1265, 2001.
[MEU 04a] MEUNIER M., ANCEY C., “Towards a conceptual approach to predetermining
long-return-period avalanche run-out distances”.
J. Glaciol.
, vol. 50, p. 268-278, 2004.
[MEU 04b] MEUNIER M., ANCEY C., TAILLANDIER J.-M., “Fitting avalanche-dynamics
models with documented events from the Col du Lautaret site (France) using the conceptual
approach”.
Cold Region Sci. Technol.
, vol. 39, p. 55-66, 2004.
[MOU 22] MOUGIN P.,
Les avalanches en Savoie
, vol. IV. Paris: Ministère de l'Agriculture,
Direction Générale des Eaux et Forêts, Service des Grandes Forces Hydrauliques, 1922.
[NAA 97] NAAIMM., GURER I., “Two-phase numerical model of powder avalanche. Theory
and application”.
J. Natural Hazard
, 18, 1997.