Separator and method for separating components of pressurized drilling fluid returns
First Claim
1. A separator for separating the liquid, solids and gas components of pressurized drilling fluid returns from a well undergoing drilling, comprising:
- a vertical cylindrical pressure vessel having top and bottom end walls and a side wall, said walls forming an internal chamber;
a cluster of vertical vortex tubes positioned inside the vessel chamber between the vessel top and bottom walls, so that upper and lower chamber sections extend above and below the vortex tubes;
each vortex tube having a side wall forming a bore, said side wall having an inlet at its upper end for tangentially introducing returns into the bore, the vortex tube being open at its upper end and closed by a transverse wall at its lower bottom end, said side wall forming at least one peripheral opening at its lower end for discharging liquid and solids;
means for feeding returns to each vortex tube through its inlet;
the vessel bottom wall being elliptical and having a central outlet;
means for withdrawing solids through the vessel bottom wall outlet;
outlet means for discharging gas from the upper chamber section; and
outlet means, located above the bottom ends of the vortex tubes, for discharging liquids through the vessel side wall.
1 Assignment
0 Petitions
Accused Products
Abstract
The separator includes a vertical cylindrical pressure vessel having elliptical top and bottom heads. A mechanical device, referred to as a vortex tube cluster of vertical tubes, is mounted in the upper section of the vessel chamber, spaced above the bottom head to define a lower chamber section for fluid and solids separation. Pressurized drilling fluid returns are directed tangentially into the vortex tubes and a subsequent centrifugal action is generated. Contained gas separates and forms a gas vortex which exits upwardly from the vortex tubes and vessel top. The liquids and solids discharge into the vessel lower chamber section where solids settle by gravity to the bottom. The solids are withdrawn from the base of the vessel by a slurry pump. The oil and water components of the fluid layer also separate by gravity and are individually removed from the vessel.
54 Citations
4 Claims
-
1. A separator for separating the liquid, solids and gas components of pressurized drilling fluid returns from a well undergoing drilling, comprising:
-
a vertical cylindrical pressure vessel having top and bottom end walls and a side wall, said walls forming an internal chamber; a cluster of vertical vortex tubes positioned inside the vessel chamber between the vessel top and bottom walls, so that upper and lower chamber sections extend above and below the vortex tubes; each vortex tube having a side wall forming a bore, said side wall having an inlet at its upper end for tangentially introducing returns into the bore, the vortex tube being open at its upper end and closed by a transverse wall at its lower bottom end, said side wall forming at least one peripheral opening at its lower end for discharging liquid and solids; means for feeding returns to each vortex tube through its inlet; the vessel bottom wall being elliptical and having a central outlet; means for withdrawing solids through the vessel bottom wall outlet; outlet means for discharging gas from the upper chamber section; and outlet means, located above the bottom ends of the vortex tubes, for discharging liquids through the vessel side wall. - View Dependent Claims (2, 3)
-
-
4. A method for separating the components of pressurized drilling fluid returns from a well undergoing drilling, said fluid comprising bit cuttings, liquid, which may include produced oil, and gas, comprising:
-
providing a vertical pressure vessel having top, bottom and side walls which form an internal chamber, said vessel containing at least one vertical vortex tube having a top opening, a closed bottom and a peripheral opening at its bottom end, said vessel having a returns feed pipe connected with the upper end of the vortex tube to feed returns tangentially to the inner surface of the vortex tube, the bottom of the vortex tube being spaced above the vessel bottom wall so that the vessel chamber includes a bottom section between the vessel bottom wall and the bottom of the vortex tube, the bottom wall having a central outlet at the base thereof, the vessel side wall having vertically spaced apart oil and water discharge outlets spaced above the bottom of the vortex tube, the vessel having a gas outlet at its upper end; feeding returns into the upper end of the vortex tube so that they rotate downward through the tube bore and form a central gas vortex, an outer layer of solids and an inner layer of liquid; discharging the gas out of the upper end of the vortex tube and through the gas outlet; discharging liquid and solids from the vortex tube through its peripheral opening into the chamber bottom section and temporarily retaining them in the chamber so that they separate by gravity separation under quiescent conditions to form a bottom layer of solids and an upper layer of liquid; withdrawing solids through the vessel'"'"'s bottom wall outlet while maintaining the inflow of returns into the vessel; and discharging separate individual streams of oil and water through the liquid discharge outlets at restricted rates so that the bottom outlet of the vortex tube remains submerged in liquid at all times.
-
Specification