Summary
Engineers are often responsible to design systems to comply with codes and standards. In recent years codes that apply to waterhammer and surge pressures have become more prominent. Increasingly AFT Impulse is being used to help engineers comply with such codes.
Once AFT Impulse has calculated the maximum pressure due to a transient event, what shall the designer do with this value? The answer to this question depends on the code that is being used as the piping design basis. In this article, we’ll be discussing how two important piping design codes - B31.4 and B31.3 - deal with surge pressure (transient pressure) and how the results from AFT Impulse shall be used in order to comply with their requirements.
Codes
ASME Code for pressure piping B31.4. Pressure Transportation Systems for Liquid Hydrocarbons and Other Liquids.
401.2 Pressure
401.2.2 Internal Design Pressure. The piping component at any point in the piping system shall be designed for an internal design pressure which shall not be less than the maximum steady-state operating pressure at that point, or less than the static head pressure at that point with the line in a static condition.
The maximum steady-state operating pressure shall be the sum of the static head pressure, pressure required to overcome friction losses, and any required back pressure. Credit may be given for hydrostatic external pressure, in the appropriate manner, in modifying the internal design pressure for use in calculations involving
the pressure design of piping components (see para.404.1.3). Pressure rise above maximum steady-state operating pressure due to surges and other variations from normal operations is allowed in accordance with para. 402.2.4.
402.2.4 Ratings - Allowance for Variations From
Normal Operations. Surge pressures in a liquid pipeline are produced by a change in the velocity of the moving stream that results from shutting down of a pump station or pumping unit, closing of a valve, or blockage of the moving stream. Surge pressure attenuates (decreases in intensity) as it moves away from its point of origin.
Surge calculations shall be made, and adequate controls and protective equipment shall be provided so that the level of pressure rise due to surges and other variations from normal operations shall not exceed the internal design pressure at any point in the piping system and equipment by more than 10%.
From B31.4 extracted paragraphs the following conclusions can be drawn:
ASME Code for pressure piping B31.3. Process Piping
301.2.2 Required Pressure Containment or Relief
1. (a) Provision shall be made to safely contain or relieve (see para. 322.6.3) any pressure to which the piping may be subjected. Piping not protected by a pressure relieving device, or that can be isolated from a pressure relieving device, shall be designed for at least the highest pressure that can be developed.
(b) Sources of pressure to be considered include ambient influences, pressure oscillations and surges, improper operation, decomposition of unstable fluids, static head, and failure of control devices.
(c) The allowances of para. 302.2.4(f) are permitted, provided that the other requirements of para. 302.2.4 are also met.
302.2.4 Allowances for Pressure and Temperature Variations.
Occasional variations of pressure and/or temperature may occur in a piping system. Such variations shall be considered in selecting design pressure (para. 301.2) and design temperature (para. 301.3). The most severe coincident pressure and temperature shall determine the design conditions unless all of the following criteria are met:
Subject to the owner’s approval, it is permissible to exceed the pressure rating or the allowable stress for pressure design at the temperature of the increased condition by not more than
From B31.3 extracted paragraphs the following conclusions can be drawn:
In order to meet the 3rd requirement the AFT Impulse user shall calculate the forces originated on the bends of the system and feed this data to a pipe stress program (see Trey- Jim Wilcox article: Evaluating Dynamic Loads in Piping Systems Caused by Waterhammer)
Conclusion
The allowable pressure due to a transient event (surge allowable) varies from code to code. B31.4 refers directly to the maximum pressure value establishing as a limit 10% above the internal design pressure. B31.3 not only establishes a surge pressure allowable (Test pressure) but also deals with the mechanical effect in the pipe, limiting the limiting piping stresses to a maximum of 33% above Sh (Sh=allowable stress for the operating temperature).
Comments 1
Many engineers overlook the issue of Owners approval contained in ASME B31.3. Major oil companies have their own overriding standard that does not permit the overpressures mentioned in the ASME codes.
Similar codes in Australia are AS 4041 & AS 2885.
It would be beneficial if the "design alert" allowed two values for the same parameter. Then when graphed it can be shown that the system response may be outside the design pressure but inside the code allowance.