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Boundary Conditions A steady state solution with all specified flux boundary conditions (including no flow) without specified head or head-dependent internal.

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Presentation on theme: "Boundary Conditions A steady state solution with all specified flux boundary conditions (including no flow) without specified head or head-dependent internal."— Presentation transcript:

1 Boundary Conditions A steady state solution with all specified flux boundary conditions (including no flow) without specified head or head-dependent internal boundaries may not converge or will give a non-unique solution. Boundary conditions always influence a steady state solution but may not influence a transient solution. Initial conditions provide reference heads for transient solutions so that it may be appropriate to set all boundary conditions to flux conditions.

2 Boundary Conditions A specified head boundary acts as an infinite source or sink. Specified flux conditions allow calibration to hydraulic conductivity while specified head and no flow boundaries do not.

3 Types of Boundary Conditions 1.Specified head (including constant head) h = f (x,y,z,t) 2.Specified flux (including no flow)  h/  l = -q l /K l 3.Head-dependent conditions q = -K b (h b – h)/L Implementation in MODFLOW

4 Head Dependent Boundaries (e.g., MODFLOW’s River Package)

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7 RBOT Gaining River Cell Q = C (h R – h ijk ) h ijk w m

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9 RBOT Losing River Cell Q = C (h R – h ijk )

10 RBOT Losing River Cell Q = C (h R – h ijk )

11 RBOT Percolating River Cell Q = C (h R – RBOT)

12 Definitions Riverbed Conductance = (K v /m) wL Leakance = K v /m Resistance = m/K v K v = vertical hydraulic conductivity of riverbed sediments m = thickness of riverbed sediments w = width of the river L = length of the river within the cell

13 River with sandy bottom = 1 day Small stream with silty bottom = 1- 10 days Stream/lake in till = 100 days Resistance

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