Method for installing a well casing into a subsea well being drilled with a dual density drilling system
First Claim
1. A method for installing a well casing through a drilling riser into a subsea well being drilled with a dual density drilling system, said drilling riser initially containing seawater and extending from above the surface of the body of seawater downwardly to a subsea wellhead, said method comprising the steps of:
- lowering said well casing through said drilling riser to said subsea wellhead and allowing displaced seawater to flow out of said drilling riser;
lowering said well casing through said subsea wellhead into said well and allowing displaced drilling fluid to flow upwardly into said drilling riser;
monitoring the riser base pressure as said well casing is lowered into said well; and
evacuating the seawater from said drilling riser to compensate for increases in riser base pressure due to said displaced drilling fluid so as to maintain said riser base pressure approximately equal to seawater pressure at the base of said drilling riser.
1 Assignment
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Accused Products
Abstract
A method for controlling the pressure at the base of a gas-lifted riser during casing installation is disclosed. Prior to casing installation, drilling fluid is displaced from the riser and the riser is filled with seawater. During casing installation, the riser base pressure is monitored, and the height of seawater in the riser is adjusted to compensate for increases in the riser base pressure. The riser base pressure is thereby maintained substantially equal to the seawater pressure at the base of the drilling riser throughout installation of the casing.
102 Citations
14 Claims
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1. A method for installing a well casing through a drilling riser into a subsea well being drilled with a dual density drilling system, said drilling riser initially containing seawater and extending from above the surface of the body of seawater downwardly to a subsea wellhead, said method comprising the steps of:
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lowering said well casing through said drilling riser to said subsea wellhead and allowing displaced seawater to flow out of said drilling riser;
lowering said well casing through said subsea wellhead into said well and allowing displaced drilling fluid to flow upwardly into said drilling riser;
monitoring the riser base pressure as said well casing is lowered into said well; and
evacuating the seawater from said drilling riser to compensate for increases in riser base pressure due to said displaced drilling fluid so as to maintain said riser base pressure approximately equal to seawater pressure at the base of said drilling riser. - View Dependent Claims (2, 3)
(hsw)=seawater depth to the riser base (D)− - {[Density of the drilling fluid displaced from said well (ρ
m)÷
Density of seawater (ρ
sw)]×
Height of column of the drilling fluid displaced from said well (hm)}.
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3. The method of claim 1 wherein said seawater is evacuated in said drilling riser using an underwater pump.
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4. A method for controlling the pressure at the base of a drilling riser in a dual-density system, used in drilling a subsea well, during casing installation wherein said riser is initially substantially filled with seawater, said method comprising the steps of:
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monitoring the riser base pressure during casing installation; and
adjusting the height of seawater in said riser to compensate for increases in said riser base pressure in response to the displacement of drilling fluid;
thereby maintaining said riser base pressure substantially equal to seawater pressure at the base of said drilling riser throughout the casing installation.- View Dependent Claims (5, 6)
(hsw)=seawater depth to the riser base (D)− - {[Density of the drilling fluid displaced from said well (ρ
m)÷
Density of seawater (ρ
sw)]×
Height of column of the drilling fluid displaced from said well (hm)}.
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6. The method of claim 4 wherein said height of seawater in said drilling riser is adjusted using an underwater pump.
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7. A method for maintaining the pressure at the base of a gas-lifted drilling riser, used in drilling a subsea well with drilling fluid, substantially equivalent to ambient seawater pressure at the base of said drilling riser during casing installation;
- wherein said gas-lifted drilling riser is initially substantially filled with seawater;
said method comprising the steps of;determining the riser base pressure while said casing is displacing said drilling fluid, located in the subsea well, into said drilling riser; and
evacuating the seawater from said riser in response to said drilling fluid displacement until said riser base pressure is maintained throughout the casing installation at the pressure of seawater at the base of said drilling riser. - View Dependent Claims (8, 9)
(hsw)=seawater depth to the riser base (D)−
{[Density of the drilling fluid displaced from said well (ρ
m)÷
Density of seawater (ρ
sw)]×
Height of column of the drilling fluid displaced from said well (hm)}.
- wherein said gas-lifted drilling riser is initially substantially filled with seawater;
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9. The method of claim 8 wherein said seawater is evacuated from said drilling riser using an underwater pump.
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10. A method for installing a well casing into a subsea well being drilled with a gas-lifted drilling riser, said gas-lifted drilling riser containing drilling fluid and lift gas and extending from above the surface of the body of seawater downwardly to a subsea wellhead, said method comprising the steps of:
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terminating gas-lifting;
removing said drilling fluid from said drilling riser and replacing said drilling fluid with seawater;
lowering said well casing through said drilling riser to said subsea wellhead and allowing displaced seawater to flow out of the top of said drilling riser;
lowering said well casing through said subsea wellhead into said well and allowing displaced drilling fluid to flow upwardly into said drilling riser;
monitoring the riser base pressure as said well casing is lowered into said well; and
evacuating the seawater from said drilling riser to compensate for increases in the riser base pressure due to said displaced drilling fluid so as to maintain said riser base pressure approximately equal to seawater pressure at the base of said drilling riser. - View Dependent Claims (11, 12, 13, 14)
(hsw)=seawater depth to the riser base (D)− - {[Density of the drilling fluid displaced from said well (ρ
m)÷
Density of seawater (ρ
sw)]×
Height of column of the drilling fluid displaced from said well (hm)}.
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14. The method of claim 10 wherein said seawater is evacuated in said drilling riser using an underwater pump.
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Specification