Petro0707
Petroleum
- Apr 10, 2007
- 82
Dear All experts,
Currently we are operating our CDU/VDU units with 27 API crude mix.We are carrying out desktop study for processing of 24 API Crudemix with simulation that what will be impact ?
I have following issues to be discussed :
1.As,VR yield will increase but how to minimize VGO drop in VR ? what cutpoint (D1160 95 % ) of HVGO should we go ? still it is decided to go min. 570 C to minimize VGO drop in VR but my ASPEN simulation model predicts higher Ni+V ppmwt fraction along with HVGO i.e.3+14 ppm.~17 ppm,while advisable limit is 1.8 ppmwtmax.(NI+V).Can you pl. throw some light about this type of experience while going to heavy crudemix processing.Still I am having around 2.5 % VGO dropping in VR-burning issue.Our constraint is VDU heater.
2.Currently we are operating damp vaccum condition,Dry vaccum tower operation without stripping steam is also thought about and I already simulated that case but in that case C-factor in Slop wax bed is higher i.e. 0.5 ft/sec.Has anybody experience for dry vaccum tower operation ?How to resolve such issues.Is it worth to operate under dry tower condition ?
3.Crude mix slat is blend of diffrent types of crudes including Dobablend2,Maya,Merry,RG etc.As far as reliability is concerned,what will be the impact on metalurgy ?TAN-Napthenic acid will be issue but we have taken care as far as metalurgy is concerned.
4.What will be the impact on desalters ?
Yes,I agree that indepth study is required and we are doing this,but can anybody throw some highlights about these issues to be focused upon or can anybody share their experience while going from 27 to 24 API crudemix or similar experience what will be focus points.
Sorry for such long description.Thanks in advance to one and all of you.....!!!
Currently we are operating our CDU/VDU units with 27 API crude mix.We are carrying out desktop study for processing of 24 API Crudemix with simulation that what will be impact ?
I have following issues to be discussed :
1.As,VR yield will increase but how to minimize VGO drop in VR ? what cutpoint (D1160 95 % ) of HVGO should we go ? still it is decided to go min. 570 C to minimize VGO drop in VR but my ASPEN simulation model predicts higher Ni+V ppmwt fraction along with HVGO i.e.3+14 ppm.~17 ppm,while advisable limit is 1.8 ppmwtmax.(NI+V).Can you pl. throw some light about this type of experience while going to heavy crudemix processing.Still I am having around 2.5 % VGO dropping in VR-burning issue.Our constraint is VDU heater.
2.Currently we are operating damp vaccum condition,Dry vaccum tower operation without stripping steam is also thought about and I already simulated that case but in that case C-factor in Slop wax bed is higher i.e. 0.5 ft/sec.Has anybody experience for dry vaccum tower operation ?How to resolve such issues.Is it worth to operate under dry tower condition ?
3.Crude mix slat is blend of diffrent types of crudes including Dobablend2,Maya,Merry,RG etc.As far as reliability is concerned,what will be the impact on metalurgy ?TAN-Napthenic acid will be issue but we have taken care as far as metalurgy is concerned.
4.What will be the impact on desalters ?
Yes,I agree that indepth study is required and we are doing this,but can anybody throw some highlights about these issues to be focused upon or can anybody share their experience while going from 27 to 24 API crudemix or similar experience what will be focus points.
Sorry for such long description.Thanks in advance to one and all of you.....!!!
