Refer to attached schematic.
The scenario: We have an acid gas removal unit which uses a liquid solvent to treat natural gas. There are three columns (absorber COL-1, flash column COL-2, regenerator COL-3). Absorber COL-1 operates at around 70 barg. For the case where the solvent flow to the asborber COL-1 stops (due to FV-1 fails closed), there is potential for vapor breakthrough to the downstream lower pressure columns due to loss of liquid inventory in the columns. We assume that both LV-1 and LV-2 (bottoms level control valves) stay in their original position when FV-1 fails closed (as per API 521, no credit is taken for favorable instrumentation response). The liquid hold up time in COL-1 and COL-2 are about 3 minutes each. First the relief valves on COL-2 would likely lift. In about 3 minutes (when all liquid is gone from COL-2) vapor breakthrough will occur from C0L-2 to COL-3.
The question: Is this a credible relief scenario to be considered for sizing of PRV-2 on COL-3?
The scenario: We have an acid gas removal unit which uses a liquid solvent to treat natural gas. There are three columns (absorber COL-1, flash column COL-2, regenerator COL-3). Absorber COL-1 operates at around 70 barg. For the case where the solvent flow to the asborber COL-1 stops (due to FV-1 fails closed), there is potential for vapor breakthrough to the downstream lower pressure columns due to loss of liquid inventory in the columns. We assume that both LV-1 and LV-2 (bottoms level control valves) stay in their original position when FV-1 fails closed (as per API 521, no credit is taken for favorable instrumentation response). The liquid hold up time in COL-1 and COL-2 are about 3 minutes each. First the relief valves on COL-2 would likely lift. In about 3 minutes (when all liquid is gone from COL-2) vapor breakthrough will occur from C0L-2 to COL-3.
The question: Is this a credible relief scenario to be considered for sizing of PRV-2 on COL-3?