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Interill Erosion. Interill Detachment and Sediment Delivery to Rills.

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Presentation on theme: "Interill Erosion. Interill Detachment and Sediment Delivery to Rills."— Presentation transcript:

1 Interill Erosion

2 Interill Detachment and Sediment Delivery to Rills

3 Adjusted Interill Erodibility (Cropland Adjustments)

4 Adjusted Interill Erodibility (Rangeland Adjustments)

5 SDR RR – Interill Sediment Delivery Ratio Based on Tables 8.4 & 8.5 in Foster (1982), “Chapter 8” in ASAE Monograph #5 1.Interill roughness factor computed as a function of Random Roughness 2.Determine Sediment Delivery Ratio for each of the 5 WEPP size classes 3.Obtain a weighted average SDR using the values from the individual classes

6 Rill Detachment

7 Rill Detachment Equation

8 Adjustments to Rill Erodibility Parameters Cropland: Incorporated Residue (K r ) Live and Dead Roots (K r ) Sealing and Crusting (K r &  c ) Freeze and Thaw (K r &  c ) Random Roughness (  c ) Rangeland: Freeze and Thaw (K r &  c )

9 Rill Deposition Equation

10 Sediment Transport Capacity

11 Modifications to Yalin Equation Based on extensive testing of the WEPP model for a large range of different soil types and measured field erosion data. First modification is to use a weighted average of the sediment transport capacity for each particle size class Second modification adjusts total transport when sand fraction is >0.50:

12 Watershed Erosion

13 Channel Hydrology & Hydraulics Channel runon and runoff situations SCS triangular synthetic hydrographs 2 methods to computer peak runoff –Modified Rational –CREAMS method Spatially varied flow equations to simulate effects of backwater

14 Governing Equation (Channel Erosion)

15 Channel Detachment Detachment Capacity: When Sediment Load is below Transport Capacity and average channel flow shear stress exceeds critical shear stress, active Channel Erosion occurs (before the depth of the channel reaches nonerodible layer): Once a nonerodible layer is reached, the channel widens and erosion decreases.

16 Channel Deposition When Sediment Load in the Channel exceeds Transport Capacity, Deposition is predicted to occur. Computes deposition of individual particle size classes, using CREAMS model approach. If Sediment Load of all classes is greater than Transport Capacity for each class, this equation is used:

17 Surface Impoundments Can simulate various types: –Farm ponds –Culverts –Filter fences –Check dams Based upon more complete CSTRS model (Wilson and Barfield, 1984) Assumes a single continuously stirred reactor

18 Surface Impoundments The hydraulic simulation section Performs a direct numerical integration of an expression of continuity An adaptive time step is utilized which increases the time step when the inflow and outflow rates are relatively constant A temporary file of the predicted outflow hydrograph is created

19 Surface Impoundments The sedimentation section Determines the amount of sediment deposited and the outflow concentration for each time step Conservation of mass and overflow rate concepts are utilized Two calibration coefficients are used to account for impoundment geometry, hydraulic response, and stratification

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