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Procedure for Drawing Flow Nets | Soil Mechanics - Civil Engineering (CE) PDF Download

At every point (x,z) where there is flow, there will be a value of head h(x,z). In order to represent these values, contours of equal head are drawn.

A flow net is to be drawn by trial and error. For a given set of boundary conditions, the flow net will remain the same even if the direction of flow is reversed. Flow nets are constructed such that the head lost between successive equipotential lines is the same, say Dh. It is useful in visualising the flow in a soil to plot the flow lines, as these are lines that are tangential to the flow at any given point. The steps of construction are:

1. Mark all boundary conditions, and draw the flow cross section to some convenient scale.

2. Draw a coarse net which is consistent with the boundary conditions and which has orthogonal equipotential and flow lines. As it is usually easier to visualise the pattern of flow, start by drawing the flow lines first.

3. Modify the mesh such that it meets the conditions outlined above and the fields between adjacent flow lines and equipotential lines are 'square'.

4. Refine the flow net by repeating step 3.

The most common boundary conditions are:

(a) A submerged permeable soil boundary is an equipotential line. This could have been determined by considering imaginary standpipes placed at the soil boundary, as for every point the water level in the standpipe would be the same as the water level. (Such a boundary is marked as CD and EF in the following figure.)

(b) The boundary between permeable and impermeable soil materials is a flow line (This is marked as AB in the same figure).

(c) Equipotential lines intersecting a phreatic surface do so at equal vertical intervals.

 

Uses of Flow Nets

Procedure for Drawing Flow Nets | Soil Mechanics - Civil Engineering (CE)

The graphical properties of a flow net can be used in obtaining solutions for many seepage problems such as:

1. Estimation of seepage losses from reservoirs: It is possible to use the flow net in the transformed space to calculate the flow underneath the dam.

2. Determination of uplift pressures below dams: From the flow net, the pressure head at any point at the base of the dam can be determined. The uplift pressure distribution along the base can be drawn and then summed up.

3. Checking the possibility of piping beneath dams: At the toe of a dam when the upward exit hydraulic gradient approaches unity, boiling condition can occur leading to erosion in soil and consequent piping. Many dams on soil foundations have failed because of a sudden formation of a piped shaped discharge channel. As the stored water rushes out, the channel widens and catastrophic failure results. This is also often referred to as piping failure. 

The document Procedure for Drawing Flow Nets | Soil Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Soil Mechanics.
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FAQs on Procedure for Drawing Flow Nets - Soil Mechanics - Civil Engineering (CE)

1. What is a flow net in civil engineering?
A flow net is a graphical representation used in civil engineering to study and analyze the flow of water or other fluids through soil or porous media. It consists of a series of equally spaced flow lines and equipotential lines that intersect each other at right angles.
2. What is the purpose of drawing a flow net?
The main purpose of drawing a flow net is to determine the seepage flow and the direction of flow through the soil or porous media. It helps in understanding the flow patterns, calculating flow rates, and assessing the stability of structures such as dams, retaining walls, and foundations.
3. How to draw a flow net in civil engineering?
To draw a flow net, follow these steps: 1. Determine the boundaries of the flow domain and mark them on the drawing. 2. Choose suitable scales for the flow lines and equipotential lines. 3. Start by drawing a few flow lines parallel to the direction of flow and extending from the inflow boundary to the outflow boundary. 4. Draw equipotential lines perpendicular to the flow lines, connecting points of equal hydraulic head. 5. Continue adding more flow lines and equipotential lines until the desired density is achieved. 6. Ensure that the flow lines and equipotential lines intersect at right angles. 7. Label the flow lines and equipotential lines with their respective hydraulic heads or potential differences. 8. Finally, clean up the drawing and add any necessary annotations or labels.
4. What factors affect the flow pattern in a flow net?
Several factors influence the flow pattern in a flow net. These factors include: - Permeability of the soil or porous media: Higher permeability allows for easier flow and can result in denser flow lines. - Hydraulic gradient: A steeper hydraulic gradient (difference in hydraulic head) leads to a higher flow rate and wider spacing between flow lines. - Boundary conditions: The inflow and outflow boundaries and their respective hydraulic heads or potential differences significantly impact the flow pattern. - Heterogeneity of the soil: Variations in soil properties, such as permeability or porosity, can cause deviations in the flow pattern. - Presence of obstacles: The presence of impermeable objects, such as rocks or clay layers, can alter the flow path and create localized flow patterns.
5. What are the limitations of using flow nets in civil engineering?
While flow nets are a valuable tool in civil engineering, they have some limitations. These include: - Assumptions of two-dimensional flow: Flow nets assume that the flow is two-dimensional and steady-state, which may not always be the case in practical situations. - Homogeneous and isotropic soil: Flow nets assume that the soil or porous media is homogeneous and isotropic, which may not represent the actual conditions accurately. - Simplified boundary conditions: The actual boundary conditions in the field may be more complex than the simplified assumptions made in flow nets. - Inaccurate representation of flow lines: Flow nets use straight and evenly spaced flow lines, which may not accurately represent the actual flow paths in complex situations. - Limited applicability: Flow nets are primarily used for saturated flow problems and may not be suitable for unsaturated or transient flow scenarios.
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