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Stress Analysis for Buried Pipeline/Underground Pipeline
Underground or buried piping are all piping which runs below grade.
In every process industry there will be few lines (Sewer or drainage
system, Sanitary and Storm Water lines, Fire water or drinking water
lines etc), part of which normally runs underground. However the term
buried piping or underground piping, in true sense, appears for pipeline
industry as miles of long pipe run carrying fluids will be there.
Analyzing an underground pipe line is quite different from analyzing
plant piping. Special problems are involved because of the unique
characteristics of a pipeline, code requirements and techniques required
in analysis. Elements of analysis include pipe movements, anchorage
force, soil friction, lateral soil force and soil pipe interaction.
To appreciate pipe code requirements and visualize problems involved
in pipe line stress analysis, it is necessary to first distinguish a
pipe line from plant piping. Unique characteristics of a pipe line
include:
- High allowable stress: A pipe line has a rather simple shape. It is circular and very often runs several miles before making a turn. Therefore, the stresses calculated are all based on simple static equilibrium formulas which are very reliable. Since stresses produced are predictable, allowable stress used is considerable higher than that used in plant piping.
- High yield strength pipe: To raise the allowable, the first obstacle is yield strength. Although a pipe line operating beyond yield strength may not create structural integrity problems, it may cause undesirable excessive deformation and possibility of strain follow up. Therefore, high test line with a very high yield to ultimate strength ratio is normally used in pipe line construction. Yield strength in some pipe can be as high as 80 percent of ultimate strength. All allowable stresses are based only on yield strength.
- High pressure elongation: Movement of pipe line is normally due to expansion of a very long line at low temperature difference. Pressure elongation, negligible in plant piping, contributes much of the total movement and must be included in the analysis.
- Soil- pipe interaction: The main portion of a pipe line is buried underground. Any pipe movement has to overcome soil force, which can be divided into two categories: Friction force created from sliding and pressure force resulting from pushing. The major task of pipe line analysis is to investigate soil- pipe interaction which has never been a subject in plant piping analysis.
Normally these lines does not have high design temperatures (of the
order of 60 to 80 degree centigrade) and only thermal stress checking is
sufficient for underground part. Common materials used for underground
piping are Carbon Steel, Ductile iron, cast Iron, Stainless Steel and
FRP/GRP.
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