1. PETE 661��Drilling Engineering Lesson 21
Well Control Complications
2. 2 Well Control Complications� Volumetric Well Control
Lubrication
Complications During Conventional Kill
Techniques to Reduce Annular Friction
3. 3 HW #12 - due Dec 02, 2002 Review
4. 4 Gas Kick Migration While a well is shut in the casing pressure increase by 1,040 psi in 2 hours.
Mud Weight = 10 lb/gal
How fast is the kick migrating?
5. 5 Gas Kick Migration How fast is the kick migrating?
6. 6 Volumetric Well Control Non-Circulating method of well control.
Allows a gas bubble to migrate to the surface while systematically allowing the bubble to expand. It also maintains the BHP at or above formation pressure
Used whenever circulation cannot be used to kill the well.
7. 7 Two situations can be present Drillpipe can be used to monitor pressure
Drillpipe cannot be used
8. 8 Drillpipe can be used When
Bit is on bottom
Bit is not plugged
No float in drillstring
9. 9 Drillpipe can be used Procedure
Determine a safety margin for the casing pressure (usually 50 - 100 psi above initial stabilized SICP and SIDPP)
Determine working margin (50 - 100 psi above safety margin)
As bubble migrates, casing pressure will eventually reach the safety margin
10. 10 Drillpipe can be used Procedure
Allow the casing pressure to reach the upper limit of the working margin
Very slowly bleed a small volume of mud from the annulus (approximately 1/4 bbl) into a calibrated tank. Then close the choke.
Let Drillpipe pressure “stabilize”
11. 11 Drillpipe can be used Procedure, cont’d
If new SIDPP > Initial SIDPP + Safety margin, repeat bleeding procedure.
If SIDPP = Initial SIDPP + Safety margin, stop bleeding and allow casing pressure to increase again.
Repeat until circulation can be restored or bubble has reached the surface
12. 12
13. 13 Drillpipe cannot be used Plugged bit
Migrating fluid is below the bit (bit is off bottom)
Drillpipe has parted or has a hole that is above the influx
14. 14 Drillpipe cannot be used Well closed in on the blind rams
Pumps are inoperable and the drillstring is not full of mud
Gas has entered the drillstring
If drillpipe pressure cannot be used, what can we do?
15. 15 Volumetric Procedure 1. Record the initial SICP
2. Allow the casing pressure to increase by the predetermined safety margin.
3. Allow the casing pressure to further increase by the predetermined working margin.
16. 16 Volumetric Procedure 4. Bleed mud from the choke manifold into a measuring tank while maintaining a relatively stable casing pressure.
Continue to bleed mud until the volume in the measuring tank is equivalent to the mud’s HSP of the working margin buildup.
The HSP is based on the hole dimensions at the depth of the rising influx.
17. 17 Volumetric Procedure 6. Repeat steps 3 through 5 until choke pressures stabilize, secondary control can be regained, or the influx surfaces.
7. Stop the bleed process if gas exits the choke. Monitor annulus pressures for further buildup.
18. 18 Volumetric Procedure Allowable increase in surface casing pressure
= 0.052 * MW * h
19. 19 Example 6.1
20. 20 Example 6.1
21. 21 Example 6.1
22. 22 Example 6.1
23. 23 Example 6.1
24. 24 Example 6.1
25. 25 Example 6.1
26. 26
27. 27
28. 28
29. 29
30. 30 Lubrication Process of replacing gas at the surface of a wellbore with mud.
Pump mud into the wellbore
Let mud fall
Bleed gas
Repeat
31. 31 Lubrication
32. 32 Lubrication Procedure Desired decrease in surface casing pressure
= 0.052 * MW * h
33. 33 Example 6.2 Consider the final condition in Example 6.1 where all the gas has migrated to the surface.
Write a lubrication procedure for replacing the gas with mud.
34. 34 Example 6.2
35. 35 Example 6.2
36. 36 Example 6.2
37. 37 Example 6.2
38. 38 Example 6.2
39. 39 Example 6.2
40. 40 Example 6.2
41. 41 Example 6.2
42. 42 Example 6.2
43. 43 Off Bottom Well Control Volumetric
Use same procedure as before
Staging in the Hole
Entails circulating mud of sufficient density to control BHP at the current position of the bit (off bottom)
Tripping in the hole some distance
Repeat
44. 44 Off Bottom Well Control
45. 45 Off Bottom Well Control
46. 46 Complication During Conventional Kill
47. 47 Techniques to Reduce Annular Friction Low choke procedure
Overkill Mud Weights
Spotting a Balanced Heavy-Weight Pill
Reverse Circulation
Bullheading
Dispersing or Segmenting a Gas Kick
48. 48 Low choke procedure Operator intentionally opens the choke to reduce the surface casing pressure.
I do not recommend this although some operators choose to use this procedure
49. 49 Overkill Mud Weights
50. 50 Overkill Mud Weights
51. 51 Example 6.6 Estimate the maximum shoe pressure if a 10 ppg mud were used to kill the well and prepare a drillpipe pressure schedule
Calculate the pressure at the shoe if the well had to be shut-in at the instant the string was filled with the new mud.
52. 52 Example 6.6
53. 53 Example 6.6
54. 54
55. 55 Example 6.6
56. 56 Spotting a Heavy-Weight Pill
57. 57 Spotting a Heavy-Weight Pill
58. 58 Spotting a Heavy-Weight Pill
59. 59 Spotting a Heavy-Weight Pill
60. 60 Reverse Circulation
61. 61
62. 62
63. 63 Bullheading Pump into a shut-in well and attempt to place the influx back into the formation.
Reasons:
H2S kicks
Inability to circulate on bottom
Loss zone below the kick disallows adequate circulation rates for a kill
To buy time
Inability to withstand the maximum surface pressures during conventional kill
64. 64 Example 6.8
65. 65
