met11
Chemical
- Nov 13, 2012
- 47
Hello everyone,
A few of us at our company are confused as to what rated capacity to use in sizing inlet/outlet piping. Our situation is best cleared up with 2 examples, let me know if you know the answer please as we are torn:
1. Say a relief valve is protecting a piece of equipment with an MAWP of 100 psig, and the relief valve is set at 100 psig and the only governing case is external fire. For sizing the valve, you are allowed a 21% overpressure (which in this case is equal to a 21% accumulation since the PSV is set at the MAWP). Would the "Rated" capacity stamped on the valve be calculated at 10% or 21% overpressure? It's my understanding that they would only do bench tests at 10% overpressure, and certify them for 10% overpressure. Or do they do them at 21% overpressure? Also, when calculating the pressure drop in the inlet/outlet piping, do they use a 10% or 21% overpressure for determining flow and pressure drop?
2. Now say a relief valve is set at 90 psig, protecting a piece of equipment with an MAWP of 100 psig (for some process/safety reason). The allowable accumulation pressure is 21% over the MAWP (121 psig) for the governing fire case. This corresponds to an overpressure of about 34.4%. Given an orifice area, would the rated capacity for the valve be calculated at 10% overpressure (99 psig) or 34.4% overpressure (121 psig)? What pressure/flow combination would be used for sizing the piping?
We've looked over API 520 and 521, as well as the Crosby handbook and cannot come to an agreement. Has anybody encountered this before and can answer with certainty as opposed to hypothesizing like we all are?
A few of us at our company are confused as to what rated capacity to use in sizing inlet/outlet piping. Our situation is best cleared up with 2 examples, let me know if you know the answer please as we are torn:
1. Say a relief valve is protecting a piece of equipment with an MAWP of 100 psig, and the relief valve is set at 100 psig and the only governing case is external fire. For sizing the valve, you are allowed a 21% overpressure (which in this case is equal to a 21% accumulation since the PSV is set at the MAWP). Would the "Rated" capacity stamped on the valve be calculated at 10% or 21% overpressure? It's my understanding that they would only do bench tests at 10% overpressure, and certify them for 10% overpressure. Or do they do them at 21% overpressure? Also, when calculating the pressure drop in the inlet/outlet piping, do they use a 10% or 21% overpressure for determining flow and pressure drop?
2. Now say a relief valve is set at 90 psig, protecting a piece of equipment with an MAWP of 100 psig (for some process/safety reason). The allowable accumulation pressure is 21% over the MAWP (121 psig) for the governing fire case. This corresponds to an overpressure of about 34.4%. Given an orifice area, would the rated capacity for the valve be calculated at 10% overpressure (99 psig) or 34.4% overpressure (121 psig)? What pressure/flow combination would be used for sizing the piping?
We've looked over API 520 and 521, as well as the Crosby handbook and cannot come to an agreement. Has anybody encountered this before and can answer with certainty as opposed to hypothesizing like we all are?
