Seepage in Soils | Soil Mechanics - Civil Engineering (CE) PDF Download

Seepage Pressure and Seepage Force

Seepage pressure is exerted by the water on the soil due to friction drag. This drag force/seepage force always acts in the direction of flow.

The seepage pressure is given by

PS = hγω  where, Ps = Seepage pressure

γω = 9.81 kN/m3

Here, h = head loss and z = length

(i) FS = hAγω where, Fs = Seepage force

(ii) Seepage in Soils | Soil Mechanics - Civil Engineering (CE) where, fs = Seepage force per unit volume.

      , i = h/z where, I = Hydraulic gradient.


Laplace Equation of Two Dimensional Flow and Flow Net

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

A rectangular soil element is shown with dimensions dx and dz in the plane, and thickness dy perpendicuar to this plane. Consider planar flow into the rectangular soil element.

In the x-direction, the net amount of the water entering and leaving the element is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

Similarly in the z-direction, the difference between the water inflow and outflow is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

For a two-dimensional steady flow of pore water, any imbalance in flows into and out of an element in the z-direction must be compensated by a corresponding opposite imbalance in the x-direction. Combining the above, and dividing by dx.dy.dz , the continuity equation is expressed as
Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

From Darcy's law, ,Seepage in Soils | Soil Mechanics - Civil Engineering (CE), where h is the head causing flow.

 

when the continuity equation is combined with Darcy's law, the equation for flow is expressed as:

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

For an isotropic material in which the permeability is the same in all directions (i.e. k x= k z), the flow equation is 

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

This is the Laplace equation governing two-dimensional steady state flow. It can be solved graphically, analytically, numerically, or analogically.

For the more general situation involving three-dimensional steady flow, Laplace equation becomes:

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

One-dimensional Flow

For this, the Laplace Equation is  Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

Integrating twice, a general solution is obtained.

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

The values of constants can be determined from the specific boundary conditions.

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

As shown, at x = 0, h = H , and at = L, = 0

Substituting and solving,

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

The specific solution for flow in the above permeameter is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

which states that head is dissipated in a linearly uniform manner over the entire length of the permeameter. 

 

Flow Nets 
Graphical form of solutions to Laplace equation for two-dimensional seepage can be presented as flow nets. Two orthogonal sets of curves form a flow net:

  • Equipotential lines connecting points of equal total head h
  • Flow lines indicating the direction of seepage down a hydraulic gradient

Two flow lines can never meet and similarly, two equipotential lines can never meet. The space between two adjacent flow lines is known as a flow channel, and the figure formed on the flownet between any two adjacent flow lines and two adjacent equipotential lines is referred to as a field. Seepage through an embankment dam is shown.

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

 

Calculation of flow in a channel 
If standpipe piezometers were inserted into the ground with their tips on a single equipotential line, then the water would rise to the same level in each standpipe. The pore pressures would be different because of their different elevations.There can be no flow along an equipotential line as there is no hydraulic gradient.

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

 

Consider a field of length L within a flow channel. There is a fall of total head Dh. The average hydraulic gradient is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

As the flow lines are b apart and considering unit length perpendicuar to field, the flow rate is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

There is an advantage in sketching flow nets in the form of curvilinear 'squares' so that a circle can be insrcibed within each four-sided figure bounded by two equipotential lines and two flow lines.

In such a square, b = L , and the flow rate is obtained as Dq = k.Dh

Thus the flow rate through such a flow channel is the permeability k multiplied by the uniform interval Dh between adjacent equipotential lines.


Calculation of total flow
For a complete problem, the flow net can be drawn with the overall head drop h divided into Nd so that Dh = h / Nd.
If Nf is the no. of flow channels, then the total flow rate is

Seepage in Soils | Soil Mechanics - Civil Engineering (CE)

The document Seepage in Soils | Soil Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Soil Mechanics.
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FAQs on Seepage in Soils - Soil Mechanics - Civil Engineering (CE)

1. What is seepage in soils?
Ans. Seepage in soils refers to the movement of water through the soil mass. It occurs when there is a difference in hydraulic head between two points within the soil, causing water to flow from higher pressure areas to lower pressure areas. Seepage can have significant implications in civil engineering projects, as it can lead to soil erosion, instability, and potential damage to structures.
2. How does seepage occur in soils?
Ans. Seepage in soils occurs due to the presence of interconnected voids or pores within the soil mass. When a hydraulic gradient is established, which is the difference in water pressure between two points, the water flows through these voids or pores, resulting in seepage. The rate of seepage depends on various factors such as soil permeability, hydraulic gradient, and the properties of the water and soil.
3. What are the effects of seepage in civil engineering projects?
Ans. Seepage can have several negative effects in civil engineering projects. It can lead to soil erosion, which can weaken the stability of slopes, embankments, and foundations. Seepage can also cause the loss of fine particles from the soil, resulting in settlement and potential damage to structures. Additionally, seepage can contribute to the formation of underground cavities, which can compromise the integrity of tunnels, dams, and other underground structures.
4. How can seepage be controlled or mitigated in civil engineering projects?
Ans. There are several methods to control or mitigate seepage in civil engineering projects. One common approach is the use of impermeable barriers such as clay or geomembranes to prevent water from flowing through the soil mass. Another method is the installation of drainage systems, such as French drains or subsurface drains, to intercept and redirect seepage flows. Additionally, grouting or injection of chemical sealants can be employed to fill voids and reduce permeability in the soil.
5. What are the factors influencing seepage in soils?
Ans. Several factors influence seepage in soils, including soil permeability, hydraulic gradient, and the properties of the water and soil. Soil permeability refers to the ability of the soil to transmit water and is influenced by factors such as grain size distribution, compaction, and soil structure. The hydraulic gradient is the driving force behind seepage and is determined by the difference in water pressure between two points. The properties of the water, such as viscosity and temperature, can also affect seepage behavior.
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