Ammonianeer
Chemical
I just recently ran into a problem I had not considered before:
I am working on specifying a PSV for a new ~3000ft 8" 900# steam line. The MAWP of the line is 1108psig. The line is supplied by a steam system operating at 1500 psig (via a let down FV), and feeds a system with a MAWP of 990 psig. The 990 psig system does not currently have any relief valves installed that are not upstream of non-return valves.
The difficulty is that the downstream side of the line operates at 900 psig and approx. 60 psi is required to overcome the frictional losses of the 3000ft long line. Therefore, if the PSV's are installed on the upstream side (at the source) and set at 990 psig they would have to operate at ~97% of set pressure (900+60, too high). If they are installed on the downstream (lower pressure) end of the line the inlet loss from the supply valve (FV) to the PSV during a blocked flow scenario would be much >3%. Note that the upstream side would not be over-pressured under this scenario (MAWP 1108 psig), but the downstream valve would likely chatter.
There is a line in API 520 dealing with this, requiring the pressure loss due to the incremental flow generated by the PSV, rather than the total flow in the pipe, to be <3%. This increment would vary with operating conditions (normal flow will vary greatly) and could be large (90% of rated capacity), so I do not think this helps.
Does anyone have any advice / suggestions on how to deal with this scenario? Are there any other codes / standards / practices to deal address this type scenario?
Thanks!
I am working on specifying a PSV for a new ~3000ft 8" 900# steam line. The MAWP of the line is 1108psig. The line is supplied by a steam system operating at 1500 psig (via a let down FV), and feeds a system with a MAWP of 990 psig. The 990 psig system does not currently have any relief valves installed that are not upstream of non-return valves.
The difficulty is that the downstream side of the line operates at 900 psig and approx. 60 psi is required to overcome the frictional losses of the 3000ft long line. Therefore, if the PSV's are installed on the upstream side (at the source) and set at 990 psig they would have to operate at ~97% of set pressure (900+60, too high). If they are installed on the downstream (lower pressure) end of the line the inlet loss from the supply valve (FV) to the PSV during a blocked flow scenario would be much >3%. Note that the upstream side would not be over-pressured under this scenario (MAWP 1108 psig), but the downstream valve would likely chatter.
There is a line in API 520 dealing with this, requiring the pressure loss due to the incremental flow generated by the PSV, rather than the total flow in the pipe, to be <3%. This increment would vary with operating conditions (normal flow will vary greatly) and could be large (90% of rated capacity), so I do not think this helps.
Does anyone have any advice / suggestions on how to deal with this scenario? Are there any other codes / standards / practices to deal address this type scenario?
Thanks!