I would like to know how other stress engineers handle this kind of issues.
To model piping stress, being knowledge about the flexibility and maximum allowable loads on the piping connections is very important to get a real idea of pipe stresses and if reaction forces are ok. Approaches of modeling the connections on the equipments (fixed anchors, flexible anchors and integration of the structures) can largely affect the results. However, the approaches we can apply are pretty much limited to how much information we can get from equipment suppliers.
For vessels, it is a little bite easier to get the allowable loads and nozzle stiffness because there are plenty of software and publications which allow the manufacturers and us to calculate them. Even that, I often met the situations that the vessel manufacturers ask me to give them the maximum piping loads on the nozzles before I even know what the piping will look like. Some of Vessel manufactures simply can not supply these information and I have to get the vessel drawings to do my own calculations.
Fortunately, pumps, turbines and compressors typical have the allowable loads and their standards; however I know a lot of people do not bother to check.
More difficult situations are for the connections on other equipments such as heaters, coils, heat exchanges and other irregular connections on various equipments. The piping usually will be connected on the headers which have heating coils and structures tied to the headers. This has made extreme difficulty to calculate the allowable loads for the piping connections. What I did was trying to build the headers in the model and found about the details of the header supports. This means that we have to access the fabrication details which we usually do not have, and most time it did not make me confident or maybe create more difficulty about checking the integration of the header supports. Even if I found that there are large reaction forces on the connections, it is usually too late or impossible to ask the manufacturers to modify their connections (even changing to a higher class flange). Some experienced engineers just simply told me it had been done like that forever without problem OR PIPE WILL FAIL BEFORE IT DAMAGES THE EQUIPMENT since the equipment is typical seen as more rigid.
I am really looking forward to hearing about how industry or stress engineers handle these issues.
Thanks,
William Zhang, P. Eng.
To model piping stress, being knowledge about the flexibility and maximum allowable loads on the piping connections is very important to get a real idea of pipe stresses and if reaction forces are ok. Approaches of modeling the connections on the equipments (fixed anchors, flexible anchors and integration of the structures) can largely affect the results. However, the approaches we can apply are pretty much limited to how much information we can get from equipment suppliers.
For vessels, it is a little bite easier to get the allowable loads and nozzle stiffness because there are plenty of software and publications which allow the manufacturers and us to calculate them. Even that, I often met the situations that the vessel manufacturers ask me to give them the maximum piping loads on the nozzles before I even know what the piping will look like. Some of Vessel manufactures simply can not supply these information and I have to get the vessel drawings to do my own calculations.
Fortunately, pumps, turbines and compressors typical have the allowable loads and their standards; however I know a lot of people do not bother to check.
More difficult situations are for the connections on other equipments such as heaters, coils, heat exchanges and other irregular connections on various equipments. The piping usually will be connected on the headers which have heating coils and structures tied to the headers. This has made extreme difficulty to calculate the allowable loads for the piping connections. What I did was trying to build the headers in the model and found about the details of the header supports. This means that we have to access the fabrication details which we usually do not have, and most time it did not make me confident or maybe create more difficulty about checking the integration of the header supports. Even if I found that there are large reaction forces on the connections, it is usually too late or impossible to ask the manufacturers to modify their connections (even changing to a higher class flange). Some experienced engineers just simply told me it had been done like that forever without problem OR PIPE WILL FAIL BEFORE IT DAMAGES THE EQUIPMENT since the equipment is typical seen as more rigid.
I am really looking forward to hearing about how industry or stress engineers handle these issues.
Thanks,
William Zhang, P. Eng.