jonathan peters miguel bagajewicz. conventional distillation pre-flash fractionation previous...
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Pre-flash Crude Fractionation
Jonathan PetersMiguel Bagajewicz
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Conventional Distillation Pre-flash Fractionation Previous Work Mission Statement Optimization Results: Light Crude Results: Heavy Crude
Outline
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Conventional Distillation
•Inject steam in the bottom
•Feed is desalted and heated
•5 products
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D86 Points ASTM standard - specifies product purity
Defined as a percentage of the product that boils at a specific temperature
Naphtha – 95% D86 182oC
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Light Crude - D86 Points
Naphtha 182Kerosene 271
Diesel 327Gas Oil 410Residue 820
Light Crude 95% D-86 Points (oC)
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Heavy Crude – D86 Point
Naphtha 182Kerosene 271
Diesel 327Gas Oil 390Residue 1220
Heavy Crude 95% D-86 Points (oC)
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Gaps
Minimum gap refers to the lowest temperature difference required to obtain the desired separation
Gaps greater than the minimum are acceptable
Boiling Point Temp.
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Light Crude - Gaps
Naphtha-Kerosene 16.7Kerosene-Diesel 0
Diesel-Gas oil -2.9
Light Crude Gaps (oC)
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Light Crude - Gaps
-164 -4
213
.2 50 73 100
128
155
183
211
239
266
294
322
350
378
405
439
495
549
597
663
781
0.00E+00
1.00E+03
2.00E+03
3.00E+03
4.00E+03
5.00E+03
6.00E+03
Conventional Distillation Products
Light Crude
Naphtha
Kerosene
Diesel
Gasoil
Resid
Crude Feed
NBP of Component (°C)
Ba
rre
ls/D
ay
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Heavy Crude - Gaps
Naphtha-Kerosene 30.8Kerosene-Diesel 4.4
Diesel-Gas oil -6.6
Heavy Crude Gaps (oC)
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Side Column
draw
steam
product
return•4 trays
•No reboiler or condenser
•Inject steam to control separation
•Draw from column
•Return to tray above draw
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Conventional Distillation
Add side columns
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Conventional Distillation
Add pumparounds to reduce heat utility
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Conventional Optimization
Simulation PFD for conv. optimization
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Conventional OptimizationHeat Demand-Supply DiagramHeat supply and demand are represented by areas. Supply can only cover demand on the left. Uncovered demand is satisfied by utilities (red area).
Shift heat from condenser to PA1 to reduce Utility
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Conventional OptimizationHeat Demand-Supply Diagram
Shift heat from PA1 to PA2
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Conventional OptimizationHeat Demand-Supply Diagram
Shift heat from PA2 to PA3
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Conventional OptimizationHeat Demand-Supply Diagram
Some heat demand still remains
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Crude Unit Flow Diagram
Heat Exchanger Network
Crude Unit PFD with HEN
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Conventional Distillation
Pinch Calculator
Replace HEN with a “black box”
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Pre-flash Fractionation
Pinch Calculator
Add a preflash drum
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Previous Work
34 Trays Total
Tray 15
Heated to 163oC
Tray 1
Send vapor to Tray 15
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Previous Work
Pre-flash reduces vapor-liquid holdup
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Previous Work
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Previous Work
Residue/feed ratio decreases with an increasing K value
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Concluded that pre-flash was only more energy efficient if gas oil yield was reduced
Steam cannot replace all carrier effect of light components
Previous Work
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Previous work studied pre-flash fractionation with the addition of one flash drum
This work studies the effect of pre-flash fractionation with the addition of multiple flash drums in both light and heavy crude systems
Systematic optimization of pre-flash fractionation
Mission Statement
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Pre-flash Optimization
Set pre-flash temperature
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Pre-flash Optimization
Vapors are sent to column
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Pre-flash Optimization
Set pumparound duty
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Pre-flash Optimization
Red - simulation did not converge, readjust
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Pre-flash Optimization
Blue – simulation converged
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Light Crude
Heavy Crude
Results
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In the process of investigating this, a new design was proposed
Technical details of this new design cannot be made public at this time
We will only disclose the impact of the new design in terms of new flow rates of products and the economics
New Design
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Light Crude - Flow Rates
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design0
50
100
150
200
250
300
Flow Rates (m3/hr.)
NaphthaKeroseneDieselGas OilResidue
For the light crude, the new design increases gas oil yield from pre-flash design, but not from conventional
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Light Crude – Min. Heat Utility
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design53
58
63
68
73
78
83
Min. Heat Utility (MW)
New design reduces min. heat utility
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Light Crude – Steam Usage
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design0
5000
10000
15000
20000
25000
30000
Steam Usage (lb/hr.)
New design steam usage is about the same as conv.
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Heavy Crude – Flow Rates
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design0
20
40
60
80
100
120
Flow Rates (m3/hr.)
NaphthaKeroseneDieselGas Oil
New design increases gas oil yield over the conventional case
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Heavy Crude – Min. Heat Utility
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design
53
58
63
68
73
78
83
Min. Heat Utility (MW)
New design reduces min. heat utility
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Heavy Crude – Steam Usage
conv. tray-10 tray-15 tray-20 tray-25 2 flash 4 flash new design12000
12200
12400
12600
12800
13000
13200
13400
Steam Usage (lb/hr.)
New design steam usage is about the same as conv.
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Economics
Process Utility Cost Increase Profit Increase Gross Profit Increase1 flash tray-15 $2,120,000 -$4,310,000 -$6,430,000
2 flash $2,580,000 -$3,080,000 -$5,660,0004 flash $2,490,000 -$4,400,000 -$6,890,000
new design -$1,110,000 $7,160,000 $8,270,000
Process Utility Cost Increase Profit Increase Gross Profit Increase1 flash tray-15 -$690,000 -$17,220,000 -$16,530,000
2 flash $3,280,000 -$19,520,000 -$22,790,0004 flash $7,790,000 -$395,350,000 -$403,150,000
new design -$1,980,000 -$14,270,000 -$12,290,000
Light Crude
Heavy Crude
New design increases profit from conv. for heavy crude
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Multiple pre-flashing does not reduce the minimum heat utility
◦ Gas Oil flow rate is reduced and Residue is increased
The new design shows noticeable energy improvement and gas oil recovery from conventional distillation for heavy crudes
Further studies are warranted
Conclusion
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1. Bagajewicz M. and S. Ji. Rigorous Targeting Procedure for the Design of Crude Fractionation Units with Pre-Flashing or Pre-Fractionation. Industrial and Engineering Chemistry Research, 41, 12, pp. 3003-3011 (2002).
2. Bagajewicz M. and S. Ji. Rigorous Procedure for the Design of Conventional Atmospheric Crude Fractionation Units Part I: Targeting. Industrial and Engineering Chemistry Research. Vol. 40, No 2, pp. 617-626 (2001).
References
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Stephanie EnglishJesse SandlinErnest WestChris WilsonSu ZhuDan Dobesh
Acknowledgements
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Questions?