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=== Main options ===
 
=== Main options ===
In this chapter it is briefly described how to use Module Sand. The different options provided by the module can be defined through an input data file, similarly to other MOHID modules.
+
In this chapter it is briefly described how to use Module Sand. The different options provided by the module can be defined through an input data file, similarly to other MOHID modules. The name of the Module Sand for run number x is Sand_x.dat [Mohid Gui]]
 
 
=== Input data file ===
 
  
 
== Outputs ==
 
== Outputs ==

Revision as of 00:56, 8 March 2011

Overview

Algorithm

Transport equations implemented

User manual

Main options

In this chapter it is briefly described how to use Module Sand. The different options provided by the module can be defined through an input data file, similarly to other MOHID modules. The name of the Module Sand for run number x is Sand_x.dat [Mohid Gui]]

Outputs

Boxes

The user can compute the sediment fluxes between boxes (or areas).

BOXFLUXES : 1

If the user wants to compute fluxes between areas needs to define a network of boxes following the ASCII MOHID format Boxes.

BOX_FILENAME : Boxes.dat 


Time series

Maps (HDF5 format)

References

AHMED, S. M., SATO, S. (2003); A sheetflow transport model for asymmetric oscillatory flows. Part I: Uniform grain size sediments; Coastal Engineering Journal 45, 321-337.

AL SALEM, A. (1993); Sediment transport in oscilatory boundary layers under sheet flow conditions; PhD thesis, Delft Hydraulics, The Netherlands.

BAGNOLD, R. (1966); An approach of sediment transport model from general physics; US Geol. Survey Prof. Paper 422-I.

BAILARD, J. A. (1984); A simplified model for longshore sediment transport. Proceedings of the 19th Coastal Engineering Conference, pp. 1454– 1470.

BAILARD, J. A., INMAN, D. L. (1981); An energetics bedload model for plane sloping beach: local transport. Journal of Geophysical Research 86 (C3), 2035– 2043.

BAYRAM, A., LARSON, M., MILLER, H., KRAUS, N. (2001); Cross-shore distribution of longshore sediment transport: comparison between predictive formulas and field measurements; Coastal Engineering Journal 44, 79– 99.

BIJKER, E. (1968); Littoral drift as function of waves and current; 11th Coastal Eng. Conf. Proc. ASCE; London, UK; pp. 415–435.

CAMENEN, B., LARROUDÉ, P. (2003); Comparison of sediment transport formulae for the coastal environment; Coastal Engineering 48, 111– 132.

DIBAJNIA, M., WATANABE, A. (1992); Sheet flow under nonlinear waves and currents. Coastal Engineering Journal, 2015– 2029.

DU BOYS, P. (1879); Le rhône et les rivières à lit affouillable; Ann; Ponts Chaussées 18 (5), 171– 195.

FERNANDES, L. (2001); Transporte de Poluentes em Estuários; Trabalho Final de Curso da Licenciatura em Engenharia do Ambiente; Instituto Superior Técnico, Universidade Técnica de Lisboa.

FRIJLINK, H. (1952); Discussion des formules de débit solide de Kalinske, Einstein et Meyer-Peter and Muller compte tenue des mesures récentes de transport dans les rivières néerlandaises; 2nd Journal Hydraulique; Société Hydraulique de France, pp. 98– 103.

KOMAR, P. D. (1998); Beach processes and sedimentation; 2nd Ed.; Pearson Education, New Jersey.

LEITÃO, P.C. (2002); Integração de Escalas e de Processos na Modelação do Ambiente Marinho; Dissertação para a obtenção do grau de Doutor em Engenharia do Ambiente; Instituto Superior Técnico, Universidade Técnica de Lisboa.

LIU, Z. (2001); Sediment Transport; Instituttet for Vand, Jord og Miljøteknik; Aalborg Universitet.

SANCHO, F. (2002); Apontamentos da disciplina de Processos Fluviais e Costeiros, Mestrado em Hidráulica, Recursos Hídricos e Ambiente; Faculdade de Ciências e Tecnologia da Universidade de Coimbra.

SILVA*, A., NEVES**, R., LEITÃO, J.C. (1997); Modelação de Processos de Transporte por Acção Combinada de Ondas e Correntes; *HIDROMOD - Modelação em Engª, Ldª; **Instituto Superior Técnico; Lisboa.

SMITH, J., SHERLOCK, A., RESIO, D. (2001); STWAVE: Steady-State Spectral Wave Model. User’s Manual for STWAVE, Version 3.0; ERDC/CHL, US Army Corps of Engineers; Washington, DC.

TRANCOSO, A. R. (2002); Modelling Macroalgae in Estuaries; Trabalho Final de Curso da Licenciatura em Engenharia do Ambiente; Instituto Superior Técnico, Universidade Técnica de Lisboa.

VAN RIJN, L.C. (1984); Sediment transport: Part I: Bed load transport; Part II: Suspended load transport; Part III: Bed forms and alluvial roughness. Journal of Hydraulic Division 110 (10), 1431– 1456; 110 (11) 1613– 1641; 110 (12) 1733-1754.

VAN RIJN, L.C. (1993); Principles of sediment transport in rivers, estuaries and coastal seas. Aqua Publication, The Netherlands, Amsterdam.

WANG, P., EBERSOLE B., SMITH E. (2002); Longshore Sand Transport – Initial Results from Large-Scale Sediment Transport Facility; ERDC/CHL, US Army Corps of Engineers, Washington, DC.

WINTER, C. (2004); Perfomance of sediment transport models in tidal environments, Workshop HWK, Delmenhorst.