Figure 3 Excerpts from the ASME Power Piping code B31.3, formula for calculating the wall thickness according to the allowable stress. Maximum pressure allowed in piping by the ASME code ...
established that ABSA document AB-518 “Pressure Piping Construction Requirements” ... IQI – means Image Quality Indicator (or penetrameter) as referenced in ASME Section V Code. ISO – means International Organization for Standardization. ITP – means
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bead and the hot pass when the hardness of the root pass is a con- cern, even if other higher strength consumables are to be used to fill and cap the weld. This “softer” root increases the resistance to cer-
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ASME B31 Pressure Piping Codes Design conditions & criteria Design of process piping Stress analysis and supports ... He is a member of ASME Pressure Vessels and Piping Division, and a certified ASME Global Instructor. He has conducted many engineeri
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A pressure test is always required for a new pressure system before use or an existing pressure system after repair or alteration to ensure the following:
MAXIMUM PIPING OPERATING PRESSURE AS RECOMMENDED BY THE ASME PROCESS PIPING CODE Jacques Chaurette www.pumpfundamentals.com 2015 Summary Often one of the tasks of designing new pump systems or retro-fitting existing systems is to determine the allowable pressure in the pipes thereby ensuring a safe and reliable operation. The ASME process piping code provides this information. This article describes what the relevant sections of the ASME pressure code are and how they can be used to calculate the allowable pressure in a piping system.
ASME process piping code and pressure calculations The ASME code recommends an allowable tensile stress level in the pipe material (see the terminology section at the end of this article). The pressure that can generate this tensile stress level can be calculated taking into account the type of material, temperature and other factors. The formula (see B31.3-1999 code, page 20) which gives the relationship between the pressure (p) labeled p (see equation), the outside diameter (D), the allowable tensile stress (S) and the thickness (t) of the pipe is:
p( psig) D(in) 2 ( S ( psi) E p( psi) Y )
where E: material and pipe construction quality factor as defined in ASME Process Piping code B31.3-1999, Table A-1A Y: wall thickness coefficient with values listed in ASME Process Piping code B31.3-1999, Table 304.1.1
Formula  is re-written in terms of the pressure (p) of the fluid within the pipe:
p ( psig)
2 t (in) S ( psi) E ( D(in) 2 t (in) Y )
Calculation example The pipe is a typical spiral-weld construction assembled according to the specification ASTM A 139-96. The material is carbon steel ASTM A 139. The outside diameter of the pipe is 20.5 inches and the wall thickness is 0.25-inch.
Maximum pressure allowed in piping by the ASME code…2
For this material, the ASME code recommends that an allowable stress (S) of 16,000 psi be used for a temperature range of -20F to +100F. The quality factor E for steel A139 is 0.8; the wall thickness coefficient Y is 0.4. Material
Minimum tensile strength (psi) 48000
ASME code Allowable stress (S) (psi) 16000
The value of the internal fluid pressure that will produce the tensile stress level stipulated by the ASME code is 315 psig (see formula ).
p ( psig)
2 t (in) S ( psi) E 2 0.25 16000 0.8 315 ( D(in) 2 t (in) Y ) (20.5 2 0.25 0.4)
This pressure should be compared to the normal operating pressure. The pressure in a pump system can vary dramatically from place to place. The pressure level vs. location can only be determined on a case by case basis. However, typically the pressure is maximum near the pump discharge and decreases towards the outlet of the system. It is possible that the system could be plugged. When the system plugs, the pump head increases and reaches (at zero flow) the shut-off head in the case of a centrifugal pump. The maximum pressure in the pump system will then be the pressure corresponding to the shut-off head plus the pressure corresponding to the pump inlet suction head. Since the system is plugged, this pressure will extend all the way from the pump discharge to the plug if the plug is at the same elevation as the pump discharge. The relationship between pressure head and pressure is given in equation .  2.31 p ( psi) SG where (H) is the pressure head, (p) the pressure and (SG) the specific gravity of the fluid.
H ( ft fluid )
If the shut-off pressure exceeds the allowable operating pressure as calculated by the ASME code, then pressure relief devices may have to be installed. This is not likely to occur in single pump systems, but multiple series pump systems may produce excessive shut-off pressures since the pressure at the outlet of the last pump depends on the sum of the shut-off pressures of each pump. Exceptions are provided for in the code and are relative to the duration of the maximum pressures events, if they are of short duration these events may be allowed for short periods.
Maximum pressure allowed in piping by the ASME code…3
Rupture disks are often used in these situations. They are accurate, reliable pressure relief devices. However, these devices are not mandatory in many systems and their installation are then a matter of engineering judgment. Existing systems In an existing system, one should not rely on the original thickness of the pipe to do the pressure calculations. The pipe may suffer from corrosion, erosion or other chemical attacks which may reduce the wall thickness in certain areas. The pipe wall thickness can easily be measured by devices such as the Doppler ultra sound portable flow meter. The smallest wall thickness should be used as the basis for the allowable pressure calculations or the damaged areas should be replaced. New systems In new systems, consider if a corrosion allowance (depending on the material) should be used. The corrosion allowance will reduce the wall thickness that is used in the allowable pressure calculations. Also the piping code allows pipe manufacturers a fabrication tolerance which can be as high as 12.5% on the wall thickness, this allowance should be considered when determining the design pipe wall thickness. Terminology Figure 1 shows the location of the various stress levels in a typical stress vs. strain graph. TS: Tensile strength YP: Yield point BS: Breaking strength
Figure 1. Definition of stress terms in a deformation test (reference Elements of Material Science by Van Vlack, Addison-Wesley Publishing Company, 2nd edition).
Maximum pressure allowed in piping by the ASME code…4
Attachments Excerpts from the ASME Power Piping code B31.3 ASTM A 139 Standard Specification for Electric-Fusion (Arc)-welded Steel Pipe
Maximum pressure allowed in piping by the ASME code…5
Figure 2 Excerpts from the ASME Power Piping code B31.3, values for allowable stress according to temperature.
Maximum pressure allowed in piping by the ASME code…6
Figure 3 Excerpts from the ASME Power Piping code B31.3, formula for calculating the wall thickness according to the allowable stress.
Maximum pressure allowed in piping by the ASME code…7
Figure 4 Excerpts from the ASME Power Piping code B31.3, values for the Y coefficient in formula .
Maximum pressure allowed in piping by the ASME code…8
Figure 5 Excerpts from the ASME Power Piping code B31.3, values for the E coefficient in formula .