Method for recovery of oil from tilted reservoirs

US 4,372,381 A
Filed: 04/10/1981
Issued: 02/08/1983
Est. Priority Date: 04/10/1981
Status: Expired due to Fees

First Claim

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1. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and at least one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and having a water zone in fluid communication with and directly below an oil zone to form an oil-water interface, said method comprising the steps of:

(a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;

(b) thereafter injecting water into the reservoir via said injection well to drive the solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent; and

(c) recovering oil from said production well.

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Abstract

A method for recovering oil from a tilted oil-bearing reservoir having a water zone in fluid communication with and directly below an oil zone wherein a large amount of solvent is injected along the water-oil interface so that a part of the solvent fingers into the oil, lowering its viscosity and making the oil more mobile for production. The remainder of the solvent is driven through the reservoir by a water flood wherein the rate is controlled slow enough that gravity minimizes fingering of the water into the oil layer, sweeping oil toward the production well. Solvent stimulation of the producing well provides additional incremental recovery and encourages the flooded oil toward the production well.

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24 Claims

1. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and at least one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and having a water zone in fluid communication with and directly below an oil zone to form an oil-water interface, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) thereafter injecting water into the reservoir via said injection well to drive the solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent; and
  
  (c) recovering oil from said production well.
- View Dependent Claims (2, 3)
- - 2. A method as defined in claim 1 wherein the amount of solvent injected is between 5 and 25% reservoir pore volume.
  - 3. A method as defined in claim 1 wherein the amount of solvent injected is 10% reservoir pore volume.

4. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and containing an oil zone, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into the reservoir via said injection well in the vicinity of the lower portion of said reservoir having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) thereafter injecting water into the reservoir via said injection well to drive the solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent; and
  
  (c) recovering oil from said production well.
- View Dependent Claims (5, 6)
- - 5. A method as defined in claim 4 wherein the amount of solvent injected is between 5 and 25% reservoir pore volume.
  - 6. A method as defined in claim 4 wherein the amount of solvent injected is 10% reservoir pore volume.

7. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and having a water zone in fluid communication with and directly below an oil zone to form an oil-water interface, said method comprising the steps of:
- (a) injecting a quantity of first solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) thereafter injecting water into the reservoir via said injection well to drive the first solvent through the reservoir toward said production well;
  
  (c) concurrently with said water injection step (b), injecting 2 to 50 barrels per foot of vertical thickness of said reservoir a second solvent for the oil into the reservoir via said production well;
  
  (d) opening said production well to production;
  
  (e) continuing injection of said water into the reservoir via said injection well to force said first solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent;
  
  (f) recovering oil from said production well until the concentration of said second solvent in the produced oil becomes less than 12% by volume;
  
  (g) repeating steps (c) through (f) until the recovered oil contains substantial concentrations of said first solvent; and
  
  (h) recovering a mixture of oil and first solvent from said production well.
- View Dependent Claims (8, 9)
- - 8. A method as defined in claim 7 wherein the amount of first solvent injected into the reservoir during step (a) is between 5 and 25% reservoir pore volume.
  - 9. A method as defined in claim 7 wherein the amount of first solvent injected into the reservoir during step (a) is 10% reservoir pore volume.

10. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and containing an oil zone, said method comprising the steps of:
- (a) injecting a quantity of first solvent for the oil into said reservoir via said injection well in the vicinity of the lower portion of said reservoir having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) thereafter injecting water into the reservoir via said injection well to drive the first solvent through the reservoir toward said production well;
  
  (c) concurrently with said water injection step (b), injecting 2 to 50 barrels per foot of vertical thickness of said reservoir a second solvent for the oil into the reservoir via said production well;
  
  (d) opening said production well to production;
  
  (e) continuing injection of said water into the reservoir via said injection well to force said first solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent;
  
  (f) recovering oil from said production well until the concentration of said second solvent in the produced oil becomes less than 12% by volume;
  
  (g) repeating steps (c) through (f) until the recovered oil contains substantial concentrations of said first solvent; and
  
  (h) recovering a mixture of oil and first solvent from said production well.
- View Dependent Claims (11, 12)
- - 11. A method as defined in claim 10 wherein the amount of first solvent injected into the reservoir during step (a) is between 5 and 25% reservoir pore volume.
  - 12. A method as defined in claim 10 wherein the amount of first solvent injected into the reservoir during step (a) is 10% reservoir pore volume.

13. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and at least one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and having a water zone in fluid communication with and directly below an oil zone to form an oil-water interface, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) allowing the reservoir to undergo a soak period for a variable time to further enable the injected solvent to finger upwardly into the reservoir oil thereby reducing its viscosity;
  
  (c) thereafter injecting water into the reservoir via said injection well to drive the solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent; and
  
  (d) recovering oil from said production well.
- View Dependent Claims (14, 15)
- - 14. A method as defined in claim 13 wherein the amount of solvent injected is between 5 and 25% reservoir pore volume.
  - 15. A method as defined in claim 13 wherein the amount of solvent injected is 10% reservoir pore volume.

16. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and containing an oil zone, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) allowing the reservoir to undergo a soak period for a variable time to further enable the injected solvent to finger upwardly into the reservoir oil thereby reducing its viscosity;
  
  (c) thereafter injecting water into the reservoir via said injection well to drive the solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent; and
  
  (d) recovering oil from said production well.
- View Dependent Claims (17, 18)
- - 17. A method as defined in claim 16 wherein the amount of solvent injected is between 5 and 25% reservoir pore volume.
  - 18. A method as defined in claim 16 wherein the amount of solvent injected is 10% reservoir pore volume.

19. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and having a water zone in fluid communication with and directly below an oil zone to form an oil-water interface, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) allowing the reservoir to undergo a soak period for a variable time to further enable the injected solvent to finger upwardly into the reservoir oil thereby reducing its viscosity;
  
  (c) thereafter injecting water into the reservoir via said injection well to drive the first solvent through the reservoir toward said production well;
  
  (d) concurrently with said water injection step (b), injecting 2 to 50 barrels per foot of vertical thickness of said reservoir a second solvent for the oil into the reservoir via said production well;
  
  (e) opening said production well to production;
  
  (f) continuing injection of said water into the reservoir via said injection well to force said first solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to minimize fingering of the water into the solvent;
  
  (g) recovering oil from said production well until the concentration of said second solvent in the produced oil becomes less than 12% by volume;
  
  (h) repeating steps (c) through (f) until the recovered oil contains substantial concentrations of said first solvent; and
  
  (i) recovering a mixture of oil and first solvent from said production well.
- View Dependent Claims (20, 21)
- - 20. A method as defined in claim 19 wherein the amount of first solvent injected into the reservoir during step (a) is between 5 and 25% reservoir pore volume.
  - 21. A method as defined in claim 19 wherein the amount of first solvent injected into the reservoir during step (a) is 10% reservoir pore volume.

22. A method for recovering oil from a subterranean oil reservoir penetrated by at least one injection well and one production well spaced apart in the reservoir, said reservoir having in one area an appreciable dip and containing an oil zone, said method comprising the steps of:
- (a) injecting a quantity of solvent for the oil into said reservoir via said injection well in the vicinity of said oil-water interface having a density less than the reservoir oil so as to contact the reservoir oil, finger upwardly into the oil, dissolve and lower said reservoir oil'"'"'s viscosity;
  
  (b) allowing the reservoir to undergo a soak period for a variable time to further enable the injected solvent to finger upwardly into the reservoir oil thereby reducing its viscosity;
  
  (c) thereafter injecting water into the reservoir via said injection well to drive the first solvent through the reservoir toward said production well;
  
  (d) concurrently with said water injection step (b), injecting 2 to 50 barrels per foot of vertical thickness of said reservoir a second solvent for the oil into the reservoir via said production well;
  
  (e) opening said production well to production;
  
  (f) continuing injection of said water into the reservoir via said injection well to force said first solvent through the reservoir and adjusting the rate of the injection so that the interface between the solvent and the water is maintained in a substantially horizontal position to enable the injected solvent to finger upwardly into the reservoir oil thereby reducing its viscosity;
  
  (g) recovering oil from said production well until the concentration of said second solvent in the produced oil becomes less than 12% by volume;
  
  (h) repeating steps (c) through (f) until the recovered oil contains substantial concentrations of said first solvent; and
  
  (i) recovering a mixture of oil and first solvent from said production well.
- View Dependent Claims (23, 24)
- - 23. A method as defined in claim 22 wherein the amount of first solvent injected into the reservoir during step (a) is between 5 and 25% reservoir pore volume.
  - 24. A method as defined in claim 22 wherein the amount of first solvent injected into the reservoir during step (a) is 10% reservoir pore volume.

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Current Assignee
Mobil Oil Corporation (Exxon Mobil Corporation)
Original Assignee
Mobil Oil Corporation (Exxon Mobil Corporation)
Inventors
McMillen, James M.
Primary Examiner(s)
Novosad, Stephen J.
Assistant Examiner(s)
Suchfield, George A.

Application Number

US06/253,120
Time in Patent Office

669 Days
Field of Search

166/263, 166/268, 166/272, 166/273, 166/274, 166/275, 166/305 R
US Class Current

166/400
CPC Class Codes

C09K 8/58   Compositions for enhanced r...

E21B 43/16   Enhanced recovery methods f...

E21B 43/20   Displacing by water

E21B 43/30   Specific pattern of wells, ...

Method for recovery of oil from tilted reservoirs

First Claim

1 Assignment

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Accused Products

Abstract

20 Citations

24 Claims

Specification

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Method for recovery of oil from tilted reservoirs

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

20 Citations

24 Claims

Specification

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Solutions

Use Cases

Quick Links