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ROMS Bed Model Tests. We consider three sediment classes We call them clay, silt, sand We can call them anything we want right now. The 30-Box Test Grid. Test 1, Continuous Erosion. Set Taucrit for all classes to 0.05 P Impose constant stress of 0.064 P
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ROMS Bed Model Tests • We consider three sediment classes • We call them clay, silt, sand • We can call them anything we want right now
Test 1, Continuous Erosion • Set Taucrit for all classes to 0.05 P • Impose constant stress of 0.064 P • Erosion rate for all classes 0.3 g/sq m/s • No settling • One third of bed, by volume, in each size class initially • Thirty days duration
Conclusions/Findings • The number of layers in the ROMS bed model is fixed. Layers do not appear or disappear. • At present, no provision exists to reduce erosion as a function of depth in the bed or age of sediments. • In the limiting case, the bed thickness will go to zero under constant erosion. Material is not entrained from deep sediments beneath the bottom of the bed • Mass is conserved.
Test 2, Continuous Erosion • Increase Taucrit for sand to 5 P. • In this case, clay and silt will erode but not sand. • All other conditions the same as Test 1.
Conclusions/Findings • The total mass of sand in the bed does not change. The vertical distribution of sand does change. • The thickness of the bed diminishes. • The vertical distribution of clay and silt change. • The bed does not appear to armor. Clay and silt erode continuously.
Test 3, Deposition • Eliminate sediment erosion • Activate settling in the water column • One third of bed, by volume, in each size class initially. • Thirty days duration
Conclusions/Findings • Mass is conserved. • When a new layer is added at the top, the bottom two layers are combined. Total thickness of the bed increases. • No long-term burial out the bottom of the bed.
Test 4, Long-Term Behavior • Activate the 30-box model of Chesapeake Bay. • Boundary conditions for clay and silt = 10 mg/L. Boundary condition for sand = zero except at bottom of bay mouth. • Erosion and settling active for all constituents. • Uniform initial conditions in bed. 1% clay, 49.5% silt, 49.5% sand by volume. • 720 days duration
Conclusions/Findings • Clay largely equilibrates with boundary conditions. After 720 days, however, erosion still occurs. • A turbidity maximum consisting of silt forms. • The bed is erosional near the mouth, depositional in the turbidity maximum. • Bed equilibrium is not attained after 720 days. • The bed exhibits similar properties to earlier tests. E.g. the vertical distribution of sand changes
The ROMS Erosion Formula E = erosion rate (kg m-2 s-1) calculated at shear stress τ Eo = Specified base erosion rate (kg m-2 s-1) φ = porosity (0 < φ < 1) τcrit = critical shear stress for erosion (P)
ROMS Erosion Formula • What does Eo mean? • It’s the erosion rate when Tau = 2 * Taucrit • In fact, erosion can take any value
ROMS Erosion Formula • We need some way of limiting the amount of sediment that can erode at any imposed stress • The simplest approaches are patterned after Jerome Maa • Put a time constant on erosion rate so erosion declines as a function of the time stress is imposed • Erode only when current is accelerating