1. Confidential to SMD JIP
Subsea Mudlift Drilling
Basic Technology
by Julie Zhang and Hans Juvkam-Wold
November 2000
Lesson 4
Similar to conventional -- brief description of key elements in a good balanced cement plug operation
U-tube effects -- need to show how/where the calculations are impacted by U-tube considerations (link to a calculation display?)
Need to link to graphic of the cement U-tube? Does our existing graphic work or do we need something different?
U-tubing Concepts
4. U-tubing Concepts
Confidential to SMD JIP

2. Confidential to SMD JIP
Contents
U-Tube Concept in Conventional Drilling
U-Tubing in DGD
Equilibrium After U-Tubing
Factors Affecting U-Tubing rate
Effect of Water Depth, Mud Weight, Mud Viscosity, Pipe Size, Nozzle Size and Well Depth Below Mud Line
Hookload during U-tubing
Special considerations
Examples of U-Tubing
4. U-tubing Concepts
Confidential to SMD JIP

3. Confidential to SMD JIP
U-tube in Conventional Drilling
Drilling, under static conditions, with uniform mud weight throughout, the hydrostatic head in the drillstring and annulus are equal.
The U-Tube is therefore balanced.
However, there are exceptions. Such as:
At beginning of increasing mud weight.
Cementing
Lots of cuttings in annulus
Gas in annulus
Drillstring
Riser
Mudline
Annulus
4. U-tubing Concepts
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4. Confidential to SMD JIP
Subsea Mudlift Drilling
BOP
Thus, the well can be treated as a U-tube
4. U-tubing Concepts
Confidential to SMD JIP

5. When does free-fall (U-tubing) occur?
During pipe connection
Pipe trips in or out of the hole
Wiper trip
Logging/Gyro
NOTE: U-tubing will occur only when there is no drillstring valve (DSV) in the drillstring
4. U-tubing Concepts
Confidential to SMD JIP

6. Confidential to SMD JIP
U-tube in DGD
Sea
water
In DGD, the pressure at the inlet to the subsea mudlift pump is maintained ~ at seawater hydrostatic pressure
Sea water Hydraustatic
Thus, pressure inside drillstring and outside drillstring are not statically balanced
4. U-tubing Concepts
Confidential to SMD JIP

7. Annulus and Return Line Confidential to SMD JIP
Static Pressure - DGD
Annulus and Return Line
Drillstring pressure
Balance
Depth
Mud level
Seawater
Hydraustatic
Pressure
Pressure
4. U-tubing Concepts
Confidential to SMD JIP

8. Confidential to SMD JIP
U-tube in DGD
When the rig pump is shut down, Free-Fall or U-Tubing occurs in DGD . . .
because the pressure at the inlet to the subsea mudlift pump is maintained ~ at seawater hydrostatic pressure
Drillstring
Mudline
Annulus
4. U-tubing Concepts
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9. Final Equilibrium Condition in DGD
The final mud level depends on two factors:
1. The relative densities of mud and sea water
2. Water depth
Seawater
Hydraustatic
balance
Balance
Mudline
Mud level
Annulus
Pressure
4. U-tubing Concepts
Confidential to SMD JIP

10. Final Equilibrium Condition in DGD
Below the mudline the pressures are balanced inside and outside the drillstring.
Above the mudline the height of mud inside the drillstring is essentially balanced against a column of seawater.
Mud level
Pressure
4. U-tubing Concepts
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11. Confidential to SMD JIP
Base Case Assumptions for Simulator Runs (made with Dr. Choe’s DGD Simulator)
Water Depth 10,000 ft (Range 4, ,000)
Mud Weight lb/gal (Range 11-18)
Mud Viscosity 111/65 (Range 2/ /300)
Drillpipe ID in (Range 2 - 6)
Nozzle Sizes 16/32 in (Range 12/ /32)
Well Depth 20,000 ft (12, ,000)
Balance
4. U-tubing Concepts
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12. Confidential to SMD JIP
U-tubing Rate in DGD
Initial Circulation Rate - before rig pump shutdown
Dynamic effects as the fluid rapidly slows down
Decreasing Flow Rate - as the fluid level drops - and the driving head decreases
Balance
Flow changes from turbulent to laminar
Mud level
Approaching Static Fluid Level
Pressure
4. U-tubing Concepts
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13. Factors Affecting U-Tube Rate in DGD
Water Depth
Mud Weight
Mud Viscosity
Drillpipe ID
Nozzle Sizes
Well Depth Below Mud Line
4. U-tubing Concepts
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14. Effect of Water Depth on Free-Fall Rate
Water depth is one of the driving forces behind the u-tube.
As water depth increases:
The u-tubing rate increases
The final fluid level in the drillpipe is lower
The time to reach equilibrium increases
4. U-tubing Concepts
Confidential to SMD JIP

15. Confidential to SMD JIP
U-Tubing Rate vs. Time for Various Water Depths
4. U-tubing Concepts
Confidential to SMD JIP

16. Effect of Mud Weight on U-Tubing Rate
Mud Weight is the other driving force behind the u-tube.
As mud weight increases:
The u-tubing rate increases
The final fluid level in the drillpipe is lower
The time to reach equilibrium increases
4. U-tubing Concepts
Confidential to SMD JIP

17. Confidential to SMD JIP
Mud Level in Drillpipe vs. Time for Various Mud Densities
4. U-tubing Concepts
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18. Effect of Mud Viscosity on U-Tubing Rate
Mud Viscosity is one of the factors that influences the u-tubing rate.
As mud viscosity increases:
The u-tubing rate decreases
The time to reach equilibrium increases
4. U-tubing Concepts
Confidential to SMD JIP

19. Confidential to SMD JIP
U-Tubing Rate vs. Time for Various Mud Viscosities
600/300 RPM
4. U-tubing Concepts
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20. Effect of Drillpipe ID on U-Tubing Rate
Drillpipe ID is another factor that controls the u-tubing rate.
As the drillpipe ID increases:
The u-tubing rate increases (less friction)
We might expect that the time to reach equilibrium would increase (more mud to drain), but this is not necessarily so - see graphs
4. U-tubing Concepts
Confidential to SMD JIP

21. Confidential to SMD JIP
U-Tubing Rate vs. Time for Various Drillpipe IDs
4. U-tubing Concepts
Confidential to SMD JIP

22. Effect of Nozzle Sizes on U-Tubing Rate
Nozzle Size is another factor that controls the u-tubing rate.
As the nozzle size increases (3 nozzles assumed):
The u-tubing rate increases
The time to reach equilibrium decreases
4. U-tubing Concepts
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23. Confidential to SMD JIP
U-Tubing Rate vs. Time for Various Bit Nozzle Sizes
4. U-tubing Concepts
Confidential to SMD JIP

24. Effect of Well Depth BML on U-Tubing Rate
Well Depth BML is yet another factor that affects the u-tubing rate.
As the depth below mudline increases:
The u-tubing rate decreases (more friction)
The time to reach equilibrium increases
4. U-tubing Concepts
Confidential to SMD JIP

25. Confidential to SMD JIP
U-Tubing Rate vs. Time for Various Wellbore Depths
4. U-tubing Concepts
Confidential to SMD JIP

26. Pit Gain during U-tubing
During U-tubing, quantities of fluid will return to surface and may appear to be pit gain (kick!).
For instants, in 10,000 ft water depth, with 18.5 ppg mud, 6.5 “ DP. Surface pit gain is expected to be 180 bbls at the end of U-tubing process.
In 1500 ft water depth, with 14 ppg mud, 5” DP, 11 bbls pit gain are expected.
4. U-tubing Concepts
Confidential to SMD JIP

27. Hookload during U-tubing
During U-tubing, Hookload will decrease mainly due to loss of mud inside the drillstring.
For the 10,000 ft water depth case, a 120,000 lbf reduction in hookload will be expected at the end of U-tubing.
While for the 1,500 ft water depth case, a 2,800 lbf reduction in hookload is expected.
4. U-tubing Concepts
Confidential to SMD JIP

28. Hookload during U-tubing Cont.
In a deep-water case, hookload can be used to predict fluid level by simply subtracting the weight of mud u-tubed from the hookload.
In a shallow water case, this method can not be used to predict fluid level.
4. U-tubing Concepts
Confidential to SMD JIP

29. Confidential to SMD JIP
Hookload vs. Mud Level at 1,500 ft Water Depth
Estimated Hookload considering only the mud level drop
4. U-tubing Concepts
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30. Confidential to SMD JIP
Hookload vs. Mud Level at 10,000 ft Water Depth
4. U-tubing Concepts
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31. Special Considerations
DSV should be installed as often as possible. However, U-tubing still could occur in cases, such as when the DSV does not work properly.
After U-tubing, the Drillstring must be filled up with mud before full circulation can be resumed.
4. U-tubing Concepts
Confidential to SMD JIP

32. Special Considerations - Cont.
Restriction pipe can be added in the drillstring to allows circulation at lower rates with full drillstring.
As length of restriction pipe increases, frictional pressure increases. U-tubing rate decreases.
As ID of restriction pipe decreases, frictional pressure increases. U-tubing rate decreases.
4. U-tubing Concepts
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33. Confidential to SMD JIP
Some Examples
U-Tubing while...
Making a 5-minute Connection
Making a 30-minute Connection
Shutting Down Before Making a Trip
Re-Starting After Making a Trip
4. U-tubing Concepts
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34. The 5-Minute Connection
Circulating Prior to Making the Connection
Shut Down Surface Pump
U-Tubing in Progress
Connection is Complete
Restart Circulation
4. U-tubing Concepts
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35. Circulating Prior to Making a Connection Confidential to SMD JIP
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36. Circulating Prior to Making a Connection
Elapsed Time = 0 sec
Fluid Level in DP = 0 ft
The 5-min Connection Circulating at 700 gpm -both pumps
Standpipe Pressure = 5,517 psi
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37. Shut Down Surface Pump The 5-min Connection MLP Circulating at 392 gpm
Elapsed Time = 30 sec
Fluid Level in DP = 237 ft
Pit Gain = 4.10 bbls
The 5-min Connection MLP Circulating at 392 gpm
SP Pressure = 0 psi
MLP P_out = 8,237 psi
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38. U-Tubing in Progress (1 min)
Elapsed Time = 60 sec
Fluid Level in DP = 505 ft
Pit Gain = 8.83 bbls
The 5-min Connection MLP Circulating at 378 gpm
MLP P_out = 8,227 psi
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39. U-Tubing in Progress (1 1/2 min)
Elapsed Time = 90 sec
Fluid Level in DP = 755 ft
Pit Gain = 12.9 bbls
The 5-min Connection MLP Circulating at 365 gpm
MLP P_out = 8,218 psi
4. U-tubing Concepts
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40. U-Tubing in Progress (2 min)
Elapsed Time = 120 sec
Fluid Level in DP = 1,005 ft
Pit Gain = 17.3 bbls
The 5-min Connection MLP Circulating at 351 gpm
MLP P_out = 8,208 psi
4. U-tubing Concepts
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41. Connection Complete - Start Rig Pump 500 gpm (elapsed time = 5 min)
Fluid Level in DP = 2,295 ft
Pit Gain = 40.0 bbls
The 5-min Connection Pig Pump at 500 gpm MLP at 268 gpm
SP Pressure = 0 psi
MLP P_out = 8,157 psi
4. U-tubing Concepts
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42. Drill Pipe is ~Full - Rig Pump @ 500 gpm (elapsed time = 16 min)
Fluid Level in DP = 2 ft
Pit Gain = 0 bbls
The 5-min Connection Pig Pump at 500 gpm MLP at 404 gpm
SP Pressure = 0 psi
MLP P_out = 8,245 psi
4. U-tubing Concepts
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43. Resume Drilling - Rig Pump @ 500 gpm (elapsed time = 17 min)
Fluid Level in DP = 2 ft
Pit Gain = 0 bbls
The 5-min Connection Pig Pump at 500 gpm MLP at 500 gpm
SP Pressure = 1,540 psi
MLP P_out = 8,321 psi
4. U-tubing Concepts
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44. The 5-Minute Connection Confidential to SMD JIP
700 gpm
500 gpm
4. U-tubing Concepts
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45. Shutdown Prior to Making Trip
Circulating Prior to Making the Connection
Shut Down Surface Pump
U-Tubing in Progress
U-Tubing is Complete
Restart Circulation
4. U-tubing Concepts
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46. U-Tubing in Progress (10 min)
Elapsed Time = 10 min
Fluid Level in DP = 3,699 ft
Pit Gain = 64 bbls
Prepare for Trip MLP Circulating at 159 gpm
MLP P_out = 8,104 psi
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47. U-Tubing Complete (25 min)
Elapsed Time = 25 min
Fluid Level in DP = 4,292 ft
Pit Gain = 73 bbls
Ready for Trip MLP Circulating at gpm
MLP P_out = 8,060 psi
4. U-tubing Concepts
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48. Confidential to SMD JIP
Initial Circulation Rate - before rig pump shutdown
Dynamic effects as the fluid rapidly slows down
Decreasing Flow Rate - as the fluid level drops - and the driving head decreases
Balance
Flow changes from turbulent to laminar
Mud level
Approaching Static Fluid Level
Pressure
4. U-tubing Concepts
Confidential to SMD JIP

49. U-Tubing Associated with Trip
Stop Rig Pump at 0 min. Re-Start at 30 min
700 gpm
500 gpm
4. U-tubing Concepts
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50. Pit Gain Associated with Trip
Stop Rig Pump at 0 min. Start at 30 min
500 gpm
700 gpm
4. U-tubing Concepts
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51. MLP Rate Associated with Trip
Stop Rig Pump at 0 min. Start at 30 min
Rig 700 gpm
@ 500 gpm
4. U-tubing Concepts
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52. Confidential to SMD JIP
Comparison
Rig Pump
Down Time
(min) 2 5 30
Rig Pump
Rate
(gal/min)
700
500
Max. Fluid
Level Drop
(ft)
1,005
2,295
4,292
Total
Time
(min)
4.5
8.3
10.0
16.3 38 46
4. U-tubing Concepts
Confidential to SMD JIP

53. Fluid Level in DP vs. Time Confidential to SMD JIP
Effect of Rig Pump Down Time
Rig Pump Rate at 500 gpm
2 min
1,000
5 min Connection
2,000
Fluid Level in Drill
Pipe, ft
3,000
30 min Connection
4,000
5,000 10 20 30 40 50
Elapsed Time, min
4. U-tubing Concepts
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54. What about Shallower Water Connections?
U-tubing depth is reduced
Pit gain is reduced
Time to reach equilibrium is reduced
Time to fill drill pipe is reduced
4. U-tubing Concepts
Confidential to SMD JIP

55. ~SEAWATER HYDROSTATIC PRESSURE Confidential to SMD JIP
U-Tubing in DGD
FLOATER
~SEAWATER HYDROSTATIC PRESSURE
10,000’
STATIC FLUID LEVEL
BOP
MUDLIFT
20,000’
4. U-tubing Concepts
Confidential to SMD JIP 23

56. Confidential to SMD JIP
Subsea Mudlift Drilling
Basic Technology
by Julie Zhang and Hans Juvkam-Wold
November 2000
The End
4. U-tubing Concepts
4. U-tubing Concepts
Confidential to SMD JIP