Pipe Stress Analysis from Water Hammer Loads

It is well-known that water hammer is caused in a piping system by sudden closure or opening of the valves or due to pump trips. During those events, the pressure increases to a huge extent and that causes an unbalanced load in the piping system which is known as Water hammer loads. All these loads created due to water hammer acts in the changes in directions and can be of sufficient magnitude to cause the piping system failure. So, during the design phase, water hammer analysis must be performed to calculate the water hammer loads and design piping and support systems to avoid failures. In this article, we will discuss the pipe stress analysis methodology for water hammer loads.

In piping systems, sudden changes in flow cause pressure unbalanced forces between elbows, valves, tees, reducers, and other inline components. These forces damage the piping system when it is not properly designed to accommodate them.

The main advantage of using PASS/START-PROF + PASS/HYDRO SYSTEM is that the 3D piping model can be easily converted between these software packages both ways.

3D piping model from PASS/START-PROF can be converted into the 3D piping model in PASS/HYDRO SYSTEM, then generate 3D water hammer loads for all nodes at certain moments of time (not only just in one node!) and pass it directly into stress analysis software PASS/START-PROF automatically (not manually!).

PASS Suite START-PROF + HYDRO SYSTEM allows us to model it very easily, just in several clicks, and help to find a way to reduce water hammer damage to the piping system. Let’s study how to perform stress analysis of the piping system from water hammer loads.

The simple piping system created in PASS/START-PROF software is shown on below screenshot:

After saving the PASS/START-PROF file, we can open it using PASS/HYDRO SYSTEM software.

Set pressure 0.15 MPa at node 1, and 0.16 MPa at node 11

Choose water steam library

Define the period of surge analysis 2.5 sec, data output stem 0.01 sec, and dynamic load factor DLF=2.0.

Select Valve in node 12 and in the “Waterhammer” tab set that valve is immediately closed.

Run Isothermal Flow analysis

Run water hammer analysis

After that export unbalanced pressure forces into (.ctpf) file. Also HYSROSYSTEM allows to export data into (.frc) file that can be opened by CAESAR II.

(.ctpf) file contains forces multiplied by DLF factor for all nodes in piping models at several most dangerous moments of time. The most dangerous moments of time is found automatically by HYROSYSTEM software.

This is the (.ctpf) file structure

This means, that PASS/HYDROSYSTEM generates unbalanced pressure loads for all nodes in the piping system at a certain moment of time.

Now open PASS/START-PROF, open Operation Mode Editor and import waterhammer forces into first operating mode.

Eight additional force-based load cases are imported from the file

You can check the force values at any node properties

Now run piping stress analysis and see results

Deformed Shape at any moment of time

Stress table at any moment or time

And maximum stresses from all load cases (static and all moments of time during waterhammer)

The same table can be checked for displacements, support loads, flange leakage, expansion joint deformations, etc.

Watch the following video with detailed analysis process described above:

Some more ready references for you…

Introduction to Pressure Surge Analysis
Water Hammer Basics in Pumps
Understanding Centrifugal Compressor Surge and Control
Stress Analysis using Start-Prof