System for recovery of petroleum from petroleum impregnated media
First Claim
1. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media comprising:
- subjecting the underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source substantially immediately adjacent the media and distributed at least initially at incrementally increasing radiation power, for heating the impregnated petroleum content preferentially relative to the corresponding porous media and progressively in a direction away from the microwave source and to a selective temperature of at least about 425°
C. and sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and in turn for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; and
recovering the migrating constituents from the vicinity of the microwave source; and
wherein the radiation is distributed initially in intermittent interval cycles of on and off duration in a first phase, and thereafter is distributed substantially continuously in a second phase.
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Accused Products
Abstract
Process for in situ recovery of carbonaceous values from underground petroleum impregnated media such as oil shale, under controlled radiation from a microwave distributing source adjacent the media, e.g. in a borehole, effected in the absence of air, such that the radiation is distributed at least initially at incrementally increasing power and/or at least initially in intermittent interval cycles of on and off duration of the microwaves, for selective pyrolysis of the organic content of the media to liquid, vapor and gas form as the case may be under autogenous pressure in the pores of the media for driving the organic constituents therefrom for appropriate recovery, e.g. via the borehole, including breakup of larger molecules, e.g. hydrocarbons, for selective increase in the noncondensible gas quantities in proportion to the liquid and/or condensible oil vapor quantities, plus pyrolysis scavenging of residual carbon coke by gasification thereof to noncondensible gas constituents, optionally using a portion of the recovered noncondensible gases to produce electrical energy for energizing the microwave source, and
conjoint probe apparatus having an adjustable extendable probe end for embedding in the porous media for in situ sensing of changes in the dielectric constant of the carbonaceous constituents undergoing microwave pyrolysis, and a mechanism for indicating the sensed changes, for adjusting the radiation in dependence upon such changes, the degree of extension of the probe end being adjustable in dependence upon the sensed frequency of the attendant radiation.
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Citations
29 Claims
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1. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media comprising:
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subjecting the underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source substantially immediately adjacent the media and distributed at least initially at incrementally increasing radiation power, for heating the impregnated petroleum content preferentially relative to the corresponding porous media and progressively in a direction away from the microwave source and to a selective temperature of at least about 425°
C. and sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and in turn for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; andrecovering the migrating constituents from the vicinity of the microwave source; and wherein the radiation is distributed initially in intermittent interval cycles of on and off duration in a first phase, and thereafter is distributed substantially continuously in a second phase. - View Dependent Claims (2, 3)
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4. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media comprising:
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subjecting the underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source substantially immediately adjacent the media and distributed at least initially at incrementally increasing radiation power, for heating the impregnated petroleum content preferentially relative to the corresponding porous media and progressively in a direction away from the microwave source and to a selective temperature of at least about 425°
C. and sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and in turn for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; andrecovering the migrating constituents from the vicinity of the microwave source; and wherein the radiation is distributed initially at incrementally increasing radiation power in a first phase, and thereafter is distributed at substantially constant corresponding increased power in a second phase. - View Dependent Claims (5, 6, 7)
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8. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media comprising:
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subjecting the underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source substantially immediately adjacent the media and distributed at least initially at incrementally increasing radiation power, for heating the impregnated petroleum content preferentially relative to the corresponding porous media and progressively in a direction away from the microwave source and to a selective temperature of at least about 425°
C. and sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and in turn for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; andrecovering the migrating constituents from the vicinity of the microwave source; and wherein the radiation is distributed initially at incrementally increasing radiation power and until the heating of the impregnated petroleum content has progressed to the linear extent of at least about 20 feet in at least one direction away from the microwave source in a first phase, and thereafter is distributed at substantially constant correspondingly increased power in such direction in a second phase. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media comprising:
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subjecting the underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source substantially immediately adjacent the media and distributed at least initially at incrementally increasing radiation power, for heating the impregnated petroleum content preferentially relative to the corresponding porous media and progressively in a direction away from the microwave source and to a selective temperature is between about 425°
-500°
C. and sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and in turn for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; andrecovering the migrating constituents from the vicinity of the microwave source; and wherein in a first step, the radiation is distributed until substantially all of the liquefiable and volatilizable constituents present which concordantly liquify and gasify at the corresponding heating temperature have been liquified and gasified and in turn recovered, and thereby leaves a remainder content of residual unliquified and ungasified carbon constituents in the corresponding porous media; and in a second step, substantially without interruption, the porous media is thereafter subjected to continued radiation from the microwave source correspondingly for heating such residual carbon constituents to a selective temperature of at least substantially about 525°
C. and below about 600°
C. and sufficiently for gasifying substantially such residual carbon constituents and in turn for causing the thereby gasified residual carbon constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source, and the migrating gasified residual carbon constituents are then recovered from the vicinity of the microwave source. - View Dependent Claims (16, 17, 18)
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19. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising:
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in a first step, subjecting as underground stratum of the petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from a microwave distributing source located in a well bore at a level substantially immediately adjacent such underground stratum, for heating the impregnated petroleum content to a selective temperature sufficiently for liquefying substantially the liquefiable petroleum constituents present which liquify at the corresponding heating temperature and for gasifying substantially the volatilizable petroleum constituents present which gasify at such heating temperature and in turn, for causing the thereby formed mixture of liquified and gasified constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; and recovering the migrating constituents from the vicinity of the microwave source via the well bore; the selective temperature being insufficient for liquefying and gasifying residual carbon constituents in the corresponding porous media and thereby leaving a remainder content of residual unliquified and ungasified carbon constituents therein; and in a second step, substantially without interruption relative to the first step, subjecting the porous media thereafter to a continued radiation from the microwave source correspondingly for heating such remainder content of residual unliquified and ungasified carbon constituents therein to a selective increased temperature sufficiently for gasifying substantially such residual carbon constituents and in turn, for causing the thereby gasified residual carbon constituents to migrate under autogenous pressure through the porous media in a direction toward the microwave source; and recovering the migrating gasified residual carbon constituents from the vicinity of the microwave source via the well bore; and wherein the first step temperature is between about 425°
-400°
C. and the second step temperature is at least substantially about 525°
C. and below about 600°
C. - View Dependent Claims (20, 21, 22)
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23. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising:
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substantially simultaneously subjecting each of a plurality of separate individual sites of underground petroleum impregnated porous media, in situ and in the substantial absence of air, to microwave radiation from each of a corresponding plurality of microwave distributing sources substantially immediately adjacent the porous media at each such site respectively and distributed at least initially in successive intermittent interval alternate cycles of on and off duration and sufficiently for heating the impregnated petroleum content for extracting extractable carbonaceous values therefrom, while correspondingly at least initially selectively alternately supplying electrical energy concordantly in successive intermittent interval alternate cycles of on and off duration to the corresponding microwave sources, such that selectively some of the plurality of microwave sources are only energized during the alternate off duration cycles of the remainder of the microwave sources are only energized during the alternate off duration cycles of said some of the microwave sources, for substantially complete utilization of said electrical energy; and recovering the thereby extracted carbonaceous values; and
wherein the radiation is distributed initially at incrementally increasing radiation power and in intermittent cycles of on and off duration in a first phase, and thereafter is distributed at substantially constant correspondingly increased power to each of the microwave sources in a second phase under a concordantly increased supply of electrical energy sufficiently to energize substantially simultaneously and continuously all of the microwave sources at such constant increased power. - View Dependent Claims (24, 25)
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26. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising:
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subjecting the underground petroleum impregnated porous media in situ to microwave radiation from a microwave distributing source and distributed at least initially at incrementally increasing radiation power and sufficiently for heating the impregnated petroleum content for extracting extractable carbonaceous values therefrom; and recovering the thereby extracted carbonaceous values; and wherein the radiation is distributed initially at incrementally increasing radiation power in a first phase, and thereafter is distributed at substantially constant correspondingly increased power in a second phase.
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27. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising:
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subjecting the underground petroleum impregnated porous media in situ to microwave radiation from a microwave distributing source and distributed at least initially at incrementally increasing radiation power and sufficiently for heating the impregnated petroleum content for extracting extractable carbonaceous values therefrom; and recovering the thereby extracted carbonaceous values; and
wherein the radiation is distributed initially at incrementally increasing radiation power and in intermittent cycles of on and off duration in a first phase, and thereafter is distributed at substantially constant correspondingly increased power continuously in a second phase.
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28. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising:
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subjecting the underground petroleum impregnated porous media in situ to microwave radiation from a microwave distributing source and distributed at least initially in intermittent cycles of on and off duration and sufficiently for heating the impregnated petroleum content for extracting extractable carbonaceous values therefrom; and recovering the thereby extracted carbonaceous values;
wherein the radiation is distributed initially in intermittent interval cycles of on and off duration in a first phase, and thereafter is distributed substantially continuously in a second phase.
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29. Process for in situ recovery of extractable carbonaceous values from underground petroleum impregnated porous media, comprising subjecting the underground petroleum impregnated porous media in situ to microwave radiation from a microwave distributing source and distributed at least initially at incrementally increasing radiation power and sufficiently for heating the impregnated petroleum content for extracting extractable carbonaceous values therefrom, and
recovering the thereby extracted carbonaceous values; - and
wherein the radiation is distributed initially in intermittent interval cycles of on and off duration in a first phase, and thereafter is distributed substantially continuously in a second phase
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Specification