1 Stitle (a80) ROMS - Sediment - Test 2 Sd(1-NST), CSED, SRHO, WSED, ERATE, TAU_CE, TAU_CD, BED_FRAC(1:NLAY) 0.220 0.0 2650. 25.0 6.e-3 0.11 1000 0.5 0.5 0.220 0.0 2650. 25.0 6.e-3 0.11 1000 0.5 0.5 3 BTHK(1:NLAY) 5 5 4 BPOR(1:NLAY) 0.4 0.4 5 Hrip 0.02 6 Lrip 0.16 7 bedload_coeff 0.5 8 morph_fac 52 99 END of sediment input data ! !===================================================================== ! Copyright (c) 2004 UCLA/Rutgers !==================================== Meinte Blaas | Hernan G. Arango = ! GLOSSARY ======== *** CARD 1: String with a maximum of eighty characters. Stitle Sediment case title. *** CARD 2: Sediment grain parameters & initial values (NST lines). Sd Diameter of grain size class [mm]. CSED Initial concentration (spatially uniform) [mg/l]. SRHO Density of sediment material of size class [kg/m3]. Quartz: SRHO=2650 kg/m3 WSED Settling velocity of size class [mm/s]. Typically WSED = 1E3* {visk*(sqrt(10.36^2+1.049*D^3)-10.36)/d50} [mm/s] (Soulsby 97) with D=d50*(g*(srho/rhow-1)/(visk^2))^0.33333 rhow=1000 kg/m3; d50=Sd*1.e-3 m; visk=1.3e-3/rhow m2/s; g=9.8 m/s2 ERATE Erosion rate of size class [kg/m2/s]. Typically ERATE =gam0*WSED*1.e-3*SRHO [kg/m2s]; with gam0=1E-3 - 1E-5 (Smith & McLean, Drake&al) TAU_CE Critical shear stress for sediment motion [N/m2] (initiation of bedload for coarses, suspension for fines). Typically TAU_CE =tau_cb=thetcr.*(g*(srho-rhow).*d50) [N/m2]; (Shields, bedload) with thetcr = 0.3./(1+1.2*D) + 0.055*(1-exp(-0.02*D)) (Soulsby & Whitehouse 97) TAU_CE = rhow*(0.8 WSED*1E-3)^2 [N/m2] (suspended load) TAU_CD Critical shear stress for depostion of cohesive sediments [N/m2] BED_FRAC Volume fraction of each size class in each bed layer (NLAY columns) [0