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Soil water flow and Darcy’s Law. Laminar flow in a tube Poiseuille’s Law, ~1840: where: Q = volume of flow per unit time (m 3 s -1 ) r = radius of the.

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Presentation on theme: "Soil water flow and Darcy’s Law. Laminar flow in a tube Poiseuille’s Law, ~1840: where: Q = volume of flow per unit time (m 3 s -1 ) r = radius of the."— Presentation transcript:

1 Soil water flow and Darcy’s Law

2 Laminar flow in a tube Poiseuille’s Law, ~1840: where: Q = volume of flow per unit time (m 3 s -1 ) r = radius of the cylindrical tube (m)  p = pressure drop across the tube (Pa) L = length of the tube (m)  = viscosity (Pa  s)

3 Macroscopic flow-velocity vector the overall average of the microscopic velocities over the total volume considered the volume considered must be large relative to the scale of heterogeneity the ratio of the path length through the soil pores to the net travel distance is the tortuosity

4 insert fig

5 Water flux the volume of water flowing through a unit cross- sectional area per unit time (V/At) units of m s -1, cm h -1, etc…

6 Hydraulic gradient the drop in water potential per unit distance in the direction of flow (  H/L) a driving force for water flow units depend on how water potential is specified a)commonly water potential is in units of “head” (e.g. cm of water) and the hydraulic gradient is unitless

7 Darcy’s Law Henry Darcy; Dijon, France; 1856 the flux is proportional to the hydraulic gradient q = flux  H/L = hydraulic gradient K = hydraulic conductivity; a measure of the soil’s ability to transmit liquid water

8 H pi = 100 cm; H po = 60 cm; L = 50 cm; K = 10 cm h -1 q = ?

9 H 1 = 10 cm; L = 50 cm; K = 10 cm h -1 q = ?

10 Reading assignment p. 137-146

11 insert Fig. 7.7

12 Hydraulic resistance the resistance of a specified thickness of a particular soil to water flow (R h ) R h = L/K For flow through two soil layers, Darcy’s Law is

13

14 Pore water velocity the average velocity of water flow through the soil pores water flow takes place through the liquid phase in the pores, not through the whole soil pore water velocity > water flux

15 Factors affecting hydraulic conductivity soil texture

16

17 Factors affecting hydraulic conductivity soil texture soil water content and matric potential

18

19 Factors affecting hydraulic conductivity soil texture soil water content and matric potential soil structure electrical conductivity of the soil solution species of cations present entrapped air

20

21 Factors affecting hydraulic conductivity soil texture soil water content and matric potential soil structure electrical conductivity of the soil solution species of cations present entrapped air viscosity of the soil solution soil temperature

22 Reading assignment Infiltration, p.259-265

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