Surface ADC Kick Sheet Filled

Aberdeen Drilling Consultants Training Academy Well Control Kick Sheet - Surface BOP Yuri Guachalla Your Name: _____________________ Well Name: _____________________

Date: ___ /____ /____

12180 Total Measured Depth: ____________ft 8280 Casing Shoe Measured Depth: ____________ft 10,8 Present Mud Density: ____________ppg 9,625 Last Casing Size od: ____________inches Surface Leak off Test 8010 Leak off Test, TVD: ____________ft 2000 Leak off Test Pressure: ____________psi Shut-in Information 465 Shut in Drillpipe Pressure (SIDPP):__________psi 12 Pit Gain: _________bbls

Slow Circulation Rate 1 Pump No: __________ 1 Pump No: __________ 2 Pump No: __________ 2 Pump No: __________

IWCF Level:

__________

Total True Vertical Depth: Casing Shoe True Vertical Depth: Open Hole Size: Last Casing id:

11600 __________ft 8000 __________ft 8,5 __________inches 8,681 __________inches

Leak off Test Mud Density:

10,4 __________ppg

Shut in Casing Pressure (SICP):

875 __________psi

30 Strokes/Minute: ________SPM 40 Strokes/Minute: ________SPM 30 Strokes/Minute: ________SPM 40 Strokes/Minute: ________SPM

Pressure: Pressure: Pressure: Pressure:

450 __________psi 510 __________psi 460 __________psi 525 __________psi

Depth taken at: __________ft True Mud Pump Output 6 Mud Pump Liner Size: ______________Inches 0.10491 Pump output @ 100%: ______________bbls/stk

If you had to work out the bbls/stk of a Triplex Mud Pump: 0.1049134 bbls/stk @ 100% (Liner size2 ÷ 1029.42) x 3 = __________ Example: If you had 6” liners installed on a Triplex Mud Pump with a 12” stroke. (6”x 6” ÷ 1029.42) x 3 = 0.10491 bbls/stk @ 100% If you’re using 97% it would be 0.10491 x 97% = 0.10176 bbls/stk. Active Surface Volume:

200 ____________bbls

8280

8280 8000

12180 11600 2300

3900 600

1000

Drill String Volume: Drill Pipe No 1

Drill Pipe No 2

H.W.D.P.

Drill Collars No1

Drill Collars No2

5 __________

19,5 __________

4,276 _________

0.01776 ________

Outside Dia (in)

Weight (lbs/ft)

Inside Dia (in)

bbls/ft

__________

__________

_________

________

Outside Dia (in)

Weight (lbs/ft)

Inside Dia (in)

bbls/ft

5 __________

49 __________

2,8125 _________

Outside Dia (in)

Weight (lbs/ft)

Inside Dia (in)

6.5 __________

72 __________

2.8125 _________

Outside Dia (in)

Weight (lbs/ft)

Inside Dia (in)

bbls/ft

__________

__________

_________

________

Outside Dia (in)

Weight (lbs/ft)

Inside Dia (in)

bbls/ft

x

10580 ________

=

187.9008 bbls __________

Length (ft)

x

________

Drill pipe

=

__________ bbls

Length (ft)

7.68409X10-3 600 ________ x ________ bbls/ft

Drill pipe

=

4.6104 bbls __________

Length (ft)

7.68409X10-3 1000 ________ x ________

HWDP

=

7.68409 bbls __________

Length (ft)

x

________

Drill Collars

=

__________ bbls

Length (ft)

Drill Collars

___________bbls 200.1953

12180 ft Check that the Total Length = Well Measured Depth: __________

Total Drill String Volume

Check that the Total Length = Well Measured Depth: __________ft

(Rounded up to)

200 ___________bbls Total Drill String Volume

Annular Volume: Between Casing and Drill pipe 2

2

(Casing id - Drillpipe od ) ÷ 1029.42 = bbls/ft

Between Open Hole and Drill pipe 2

2

(Open Hole od - Drillpipe od ) ÷ 1029.42 = bbls/ft

Between Open Hole and HWDP 2

2

(Open Hole od - HWDP od ) ÷ 1029.42 = bbls/ft

Between Open Hole and Drill Collars 2

2

(Open Hole od - Drill Collars od ) ÷ 1029.42 = bbls/ft

B+C+D B+C+D (Rounded up to)

0.0489 __________

x

bbls/ft

0.0459 __________

x

bbls/ft

162.25 ______________________bbls Total Open Hole Volume (bit to shoe)

162 ______________________bbls Total Open Hole Volume (bit to shoe)

404.892 bbls __________

x

2300 __________

=

105.57 bbls __________

(B)

barrels

600 __________

=

27.54 __________ bbls

feet

x

(A)

barrels

feet

bbls/ft

0.02914 __________

=

feet

bbls/ft

0.0459 __________

8280 __________

(C)

barrels

1000 __________

=

29.14 __________ bbls

feet

(D)

barrels

A+B+C+D A+B+C+D (Rounded up to)

567.142 _____________bbls Total Annular Volume

567 _____________bbls Total Annular Volume

Selected Kill Pump Data / Slow Circulation Rate (SCR) 1 ______________

___________________

_________________________

___________________________

Mud Pump No

Kill Rate (strokes per minute)

Pump Output (bbls per stroke)

Slow Circulating Rate (psi)

Strokes from Surface to Bit: _________________bbls

÷

__________________bbls/stk

Total Drill String Volume

=

Mud Pump Output

___________________strokes Strokes, from Surface to Bit (Rounded up to nearest whole stroke)

Strokes from Bit to Shoe: _________________bbls

÷

__________________bbls/stk

Total Open Hole Volume

=

Mud Pump Output

___________________strokes Strokes, from Bit to Shoe (Rounded up to nearest whole stroke)

Total Strokes from Bit to Surface: _________________bbls

÷

Total Annular Volume

__________________bbls/stk

=

Mud Pump Output

___________________strokes Strokes, from Bit to Surface (Rounded up to nearest whole stroke)

Total Strokes from Surface to Surface: _________________stks

+

Strokes, from Surface to bit

___________________stks

=

Strokes, from Bit to Surface

___________________strokes Strokes, from Surface to Surface (Rounded up to nearest whole stroke)

Total Strokes for Active Surface Volume: _________________bbls

÷

Active Surface Volume

___________________stks

=

Mud Pump Output

___________________strokes Total Strokes for Active Surface Volume (Rounded up to nearest whole stroke)

Total Strokes from Surface to Surface, including Active Surface Volume: _________________stks Strokes, from Surface to Surface

+

___________________stks __________ Total Strokes for Active Surface Volume

=

___________________strokes Total Strokes from Surface to Surface, including Active Surface Volume

(Rounded up to nearest whole stroke)

Maximum Allowable Mud Density (ppg)

(_____________psi ÷

0.052

÷

_____________ft)

Leak off Test Pressure

+

Shoe Depth (TVD)

_____________ppg

=

Leak off Test Mud Density

__________________ppg Maximum Allowable Mud Density

(DO NOT ROUND, use FULL value)

Maximum Allowable Annular Surface Pressure (MAASP) (psi)

(____________ppg Maximum Allowable Mud Density

_____________ppg)

x

0.052

x

_____________ft

Present Mud Density

=

Shoe Depth (TVD)

__________________psi Maximum Allowable Annular Surface Pressure (MAASP)

(DO NOT ROUND, use FULL value) Kill Mud Density

(_____________psi ÷

0.052

÷

SIDPP

______________ft) True Vertical Hole Depth

+

____________ppg = Present Mud Density

__________________ppg Kill Mud Density

(Remember the Kill Fluid Density Rule)

Initial Circulating Pressure (ICP) ___________________________psi

+

SIDPP

____________________________psi

=

Pump Pressure @ SCR of ______ spm

__________________psi Initial Circulating Pressure

Final Circulating Pressure (FCP) ___________________________psi Pump Pressure @ SCR of ______ spm

x

__________ppg Kill Mud Density

÷

_______________ppg Present Mud Density

=

__________________psi Final Circulating Pressure

(Rounded to nearest full value)

Pressure Chart Surface to Bit Strokes Surface

Initial Circulating Pressure (ICP)

0

ICP

Bit _____________ ÷ 10 Strokes Surface to Bit

FCP = _____________ Strokes per Step

_____________ - _____________ ÷ 10 Initial Final Circulation Pressure Circulation Pressure

= _____________ Pressure per Step

Strokes Bit to Surface Strokes Bit

0

Surface _____________ ÷ 10 Strokes Bit to Surface

= _____________ Strokes per Step

Final Circulating Pressure (FCP) (psi)

Initial Circulating Pressure (ICP) (psi)

1500

1000

Strokes

500

0

Pressure Time (min)

0

To work out the Time, divide the number of strokes by the Strokes Per Minute (SPM) of the mud pump. Once the kill mud has been pumped to the bit, continue pumping keeping the Drill Pipe Pressure constant until the kill mud is completely around the system.