Single well stimulation for the recovery of liquid hydrocarbons from subsurface formations
First Claim
1. A method for recovering liquid hydrocarbons from a water-containing subsurface formation through a borehole extending from the surface of the earth into said formation, said method comprising the steps of:
- disposing an electrode in said borehole in at least a first portion of said formation,producing liquid through said borehole from said first portion of said formation, andapplying electrical power through said electrode at a rate sufficient to vaporize water in an annular region of said formation extending from said borehole above said first portion while leaving water in said first portion substantially in the liquid phase.
2 Assignments
0 Petitions
Accused Products
Abstract
Water is vaporized in an annular upper region of a subsurface formation into which borehole extends from the surface. This creates a substantially nonconducting dielectric in such region extending outwardly from the borehole. Such vaporization is preferably achieved by the application of electrical power to an electrode disposed in the borehole. Liquid is produced through the borehole from a lower region of the formation to cool the lower region near the borehole and maintain an electrically conductive path between the formation and the electrode in such lower region through which electrical power is applied to the formation.
-
Citations
32 Claims
-
1. A method for recovering liquid hydrocarbons from a water-containing subsurface formation through a borehole extending from the surface of the earth into said formation, said method comprising the steps of:
-
disposing an electrode in said borehole in at least a first portion of said formation, producing liquid through said borehole from said first portion of said formation, and applying electrical power through said electrode at a rate sufficient to vaporize water in an annular region of said formation extending from said borehole above said first portion while leaving water in said first portion substantially in the liquid phase. - View Dependent Claims (21)
-
-
2. A method for recovering liquid hydrocarbons from a water-containing subsurface formation through a borehole extending from the surface of the earth into said formation, said method comprising the steps of:
-
vaporizing water in an annular upper region of said formation extending from said borehole to create a substantially nonconducting dielectric therein, applying electrical power to an electrode disposed in said borehole in a lower region of said formation to heat hydrocarbons therein, and producing liquid including hydrocarbons through said borehole from said lower region to cool said lower region adjacent said electrode and maintain an electrically conductive path between said formation and said electrode in said lower region. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
-
-
22. A method for recovering liquid hydrocarbons from a water-containing subsurface formation through a borehole extending from the surface of the earth into said formation, said method comprising the steps of:
-
vaporizing water in an annular upper region of said formation extending from said borehole to create a substantially nonconducting dielectric therein, applying electrical power to an electrode disposed in said borehole in a lower region of said formation to heat hydrocarbons therein, and producing liquid including hydrocarbons through said borehole from said lower region to cool said lower region adjacent said electrode and maintain an electrically conductive path between said formation and said electrode in said lower region, wherein said electrode comprises a monopole and electrical power is applied at a very low frequency between said monopole and a distributed electrode outside said formation having an effective impedance thereat that is negligible relative to the impedance at said monopole, said power being applied both to vaporize said water in said annular region and to heat said lower region, said frequency being less than that at which excess total path losses, including skin-depth effect losses, eddy current losses and hysteresis losses and frequency dependent earth path losses, total less than total path losses at zero frequency.
-
-
23. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation, said system comprising
a source of electrical power at the surface of the earth, an electrode in said borehole in at least a portion of said formation, a remote electrode at the surface of the earth, an electrically conductive well casing extending from the surface of the earth to said electrode in said borehole, means for insulating said well casing from earth formations from the surface of the earth to said electrode in said borehole, means for connecting said source of electrical power between said remote electrode and said well casing for applying electrical power to said formation at said electrode in said borehole, and means for measuring the impedance of the power circuit including said electrode in said borehole.
-
24. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation, said system comprising
a source of electrical power at the surface of the earth, an electrode in said borehole in at least a portion of said formation, a remote electrode at the surface of the earth, an electrically conductive well casing extending from the surface of the earth to said electrode in said borehole, means for insulating said well casing from earth formations from the surface of the earth to said electrode in said borehole, means for connecting said source of electrical power between said remote electrode and said well casing for applying electrical power to said formation at said electrode in said borehole, means for measuring the temperature at respective vertically spaced locations in said borehole, and means for measuring the downhole pressure.
-
25. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation and producing products therefrom, said system comprising
a source of RF power at the surface of the earth, first and second electrodes vertically spaced and insulated from one another and disposed within said formation in the same borehole, coaxial conductors connecting said source to respective said electrode for energizing said electrodes, said coaxial conductors including a tubular inner conductor, means for pumping liquid from the location of the lower of said first and second electrodes through said inner conductor to the surface of the earth, and isolation means at the surface of the earth for electrically isolating said inner conductor from ground potential and recovering said liquid from said inner conductor at ground potential.
-
30. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation and producing products therefrom, said system comprising
a source of RF power at the surface of the earth, first and second electrodes vertically spaced and insulated from one another and disposed within said formation, coaxial conductors connecting said source to respective said electrodes for energizing said electrodes, said coaxial conductors including a tubular inner conductor, means for pumping liquid from the location of the lower of said first and second electrodes through said inner conductor to the surface of the earth, isolation means at the surface of the earth for electrically isolating said inner conductor from ground potential and recovering said liquid from said inner conductor at ground potential, and isolation means for restricting current flow in the outer of said conductor from the higher of said first and second electrodes.
-
31. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation and producing products therefrom, said system comprising
a source of RF power at the surface of the earth, first and second electrodes vertically spaced and insulated from one another and disposed within said formation, coaxial conductors connecting said source to respective said electrodes for energizing said electrodes, said coaxial conductors including a tubular inner conductor, means for pumping liquid from the location of the lower of said first and second electrodes through said inner conductor to the surface of the earth, and isolation means at the surface of the earth for electrically isolating said inner conductor from ground potential and recovering said liquid from said inner conductor at ground potential, said isolation means including a tubular choke coil for conveying said liquid from said inner conductor to ground potential.
-
32. A system for electrically heating a subsurface formation remote from the surface of the earth through a borehole extending from the surface of the earth into said formation and producing products therefrom, said system comprising
a source of electrical power at the surface of the earth, at least one electrode disposed within said formation, a tubular conductor connecting said source to said electrode for energizing said electrode, said conductor being insulated from ground, means for pumping liquid from the location of said electrode through said tubular conductor to the surface of the earth, and isolation means at the surface of the earth for electrically isolating said conductor from ground potential and recovering said liquid from said conductor at ground potential, said isolation means including a tubular choke coil for conveying said liquid from said conductor to ground potential.
Specification