Greetings!
We have a C3/Mixed Refrigerant Evaporator (kettle reboiler) level control issues, where "kettle" reboiler is:
- BKM type, 1600 mm (4200 mm) x 8100 mm
- not conventional kettle, bundle is stabbed into the horizontal vessel, presumably due to economy
- demister pad at ~850 mm above tube bundle
- LLL = 50 mm above - ||-
- NLL = 100 mm -||-
- HLL = 150 mm -||-
We have found out that level control within specified values level values is not possible. The bundle top is run dry from time to time.
1. Considering that normally shell metal temperature is -36°C, and mean tube wall metal temperature is -32°C, is there a danger to the integrity of the exchanger, being fixed tubesheet type - if we keep it running while the bundle top is cyclically run dry? I understand that shellside vapor will have way lower heat transfer coefficient and that will lead to top tubes' metal temperature to be a few degrees warmer than the rest of the submerged bundle. My cursory calcs show that this translates in ~1000 psi of additional cyclic longitudinal stress.
2. My HTRI rating run shows that the kettle nominal diameter should be ~ 4200mm as it actually is. However, having demister pad half-way in the vapor space increases horizontal velocity of the vapor. Does anyone have criteria for selection of horizontal vapor velocity in the vapor space so I could double-check the adequacy of the existing space? It is critical to minimize the entrainment as vapor goes to the compressor.
Thank you.
We have a C3/Mixed Refrigerant Evaporator (kettle reboiler) level control issues, where "kettle" reboiler is:
- BKM type, 1600 mm (4200 mm) x 8100 mm
- not conventional kettle, bundle is stabbed into the horizontal vessel, presumably due to economy
- demister pad at ~850 mm above tube bundle
- LLL = 50 mm above - ||-
- NLL = 100 mm -||-
- HLL = 150 mm -||-
We have found out that level control within specified values level values is not possible. The bundle top is run dry from time to time.
1. Considering that normally shell metal temperature is -36°C, and mean tube wall metal temperature is -32°C, is there a danger to the integrity of the exchanger, being fixed tubesheet type - if we keep it running while the bundle top is cyclically run dry? I understand that shellside vapor will have way lower heat transfer coefficient and that will lead to top tubes' metal temperature to be a few degrees warmer than the rest of the submerged bundle. My cursory calcs show that this translates in ~1000 psi of additional cyclic longitudinal stress.
2. My HTRI rating run shows that the kettle nominal diameter should be ~ 4200mm as it actually is. However, having demister pad half-way in the vapor space increases horizontal velocity of the vapor. Does anyone have criteria for selection of horizontal vapor velocity in the vapor space so I could double-check the adequacy of the existing space? It is critical to minimize the entrainment as vapor goes to the compressor.
Thank you.
