Sediment Transport
Lund-CIRP
Camenen and Larson (2005, 2007, and 2008) developed a general sediment transport formula for bed and suspended load under combined waves and currents.
Bed load
The current-related bed load transport with wave stirring is given by
(1) |
Suspended load
The current-related suspended load transport with wave stirring is given by
(2) |
The reference sediment concentration is obtained from
(3) |
where the coefficient is given by
(4) |
with being the dimensionless grain size and the kinematic viscosity of water.
The sediment mixing coefficient is calculated as
(5) |
van Rijn
Watanabe
The equilibrium total load sediment transport rate of Watanabe (1987) is given by
(6) |
where is the maximum shear stress, is the critical shear stress of incipient motion, and is an empirical coefficient typically ranging from 0.1 to 2.
The critical shear stress is determined using
Failed to parse (unknown function "\rhos"): {\displaystyle \tau_{cr} = (\rho_s - \rhos) g d \phi_{cr} } | (6) |
In the case of currents only the bed shear stress is determined as
(6) |
where is the current friction factor
(6) |
Soulsby-van Rijn
The equilibrium sediment concentration is calculated as (Soulsby 1997)
(7) |
Symbol | Description | Units |
---|---|---|
Bed load transport rate | m3/s | |
Relative density | - | |
Shields parameter due to currents | - | |
Shields parameter due to waves and currents | - | |
Critical shields parameter | - | |
Empirical coefficient | - | |
Empirical coefficient | - | |
Current magnitude | m/s |
References
- Camenen, B., and Larson, M. (2005). "A bed load sediment transport formula for the nearshore," Estuarine, Coastal and Shelf Science, 63, 249-260.
- Camenen, B., and Larson, M., (2008). "A General Formula for Non-Cohesive Suspended Sediment Transport," Journal of Coastal Research, 24(3), 615-627.
- Soulsby, D.H. (1997). "Dynamics of marine sands. A manual for practical applications," Thomas Telford Publications, London, England, 249 p.
- Watanabe, A. (1987). "3-dimensional numerical model of beach evolution," Proceedings Coastal Sediments '87, ASCE, 802-817.