-------------------------------------------------------------------------------------------------------------------------------------

MASCP + Mud Hydrostatic + Influx Hydrostatic = Formation P.

H = (MASCP-FP) / ( 0.052(MW-INFLUX mw).

This H will covert to bit more volume at shoe annulus. This shoe volume should be shrunk by

PV= C to the Bit TVD.

-------------------------------------------------------------------------------------------------------------------------------------

Kick tolerance is the maximum gas influx volumes (bbl) for a designed kick intensity that can be

successfully shut the well in and circulated out without breaking formation pressure at the casing

shoe.

Kick intensity is the different between the maximum anticipated formation pressure and planned

mud weight.

Secondly, learn how to determin kick tolerance by following steps below:

1. Determine kick intensity

2. Determine maximum allowable shut in casing pressure (MASICP)

3. Determine influx height with this following equation

4. Calculate influx volume at BHA based on the influx height

Influx volume at BHA, bbl = Kick Height, ft x Annular Capacity of BHA and Hole, bbl/ft

5. Calculate influx volume at shoe base on the influx height

Influx volume at shoe, bbl = Kick Height, ft x Annular Capacity of DP and Hole, bbl/ft

6. Calculate influx volume at the bottom based on the influx volume at the shoe by applying  Boyle’s

Law

Influx volume at bottom, bbl = (Influx volume at shoe x Leak off test pressure at shoe) ÷ (Formation

pressure, psi)

Formation pressure can be calculated from well TVD and maximum anticipated formation pressure.

7. Compare both figures. The smaller figure is the Kick Tolerance.

For more understanding, please determine kick tolerance with following data;

Possible maximum formation pressure = 12.5 ppg

Planned TD mud weight = 12.0 ppg

Casing shoe = 6,500’MD/5,500’ TVD

Leak off test at casing shoe = 14.7 ppg

Hole depth = 10,100’MD/9,500’TVD

Bit = 12-1/4”

BHA = 850 ft

Average OD of BHA = 6.5”

Drill pipe size = 5”

Influx gradient (gas) = 0.11 psi/ft

1. Kick intensity = 12.5 – 12.0 = 0.5 ppg

2. Maximum Allowable Shut In Casing Pressure (MASICP) ** some people may call maximum

allowable initial shut in casing pressure**.

= (14.7 – 12.0) x 0.052 x 5,500 = 772 psi

3. Influx height:

4. Calculate influx volume at BHA based on the influx height

Annular capacity between hole and BHA =

Annular capacity between hole and drill pipe  = ( 12.252 – 52) ÷ 1029.4 = 0.1215 bbl/ft

Influx volume at BHA, bbl = (0.1047 x 850) + (0.1215 x 171) = 109.8 bbl

5. Calculate influx volume at shoe base on the influx height

Annular capacity between hole and drill pipe =

Influx volume at shoe, bbl = 0.1215 x 1021 = 124.1 bbl

6. This volume is a reference at shoe; therefore, you need to convert it to the bottom hole

condition.

Boyle’s gas law is utilized in order to get the figure at the bottom hole.

P1 x V1 = P2 x V2

For this case, you need to use the maximum pressure at shoe which is the Leak Off Test pressure

because it is the maximum value before you will break the wellbore.

Rearranging the equation, you will get like this.

Influx volume at bottom, bbl = Influx volume at shoe x Leak off test pressure at shoe ÷ Formation

pressure, psi

Influx volume at shoe = 124.1 bbl

Leak off test pressure = 0.052 x 14.7 x 5,500 = 4,204 psi

Formation pressure = 0.052 x 12.5 x 9,500 = 6,175 psi

Influx volume at bottom, bbl = (124.1 x 4, 204) ÷ (6175) = 84.5 bbl

7. We need to compare 2 cases and the smaller figure is the kick tolerance of the well.

1 st case: 109.8 bbl

2 nd case: 84.5 bbl

Therefore, the kick tolerance is   84.5   bbl.

Conclusion: With the following information, the maximum kick that the well can take and personnel

can circulate it out of hole without breaking formation is 84.5 bbl.