Power systems utilizing the heat of produced formation fluid

Lambirth, Gene Richard

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A - human necessities
A01 - agriculture
A21 - baking
A22 - butchering
A23 - foods or foodstuffs
A24 - tobacco
A41 - wearing apparel
A42 - headwear
A43 - footwear
A44 - haberdashery
A45 - hand or travelling articles
A46 - brushware
A47 - furniture
A61 - medical or veterinary science
A62 - life-saving
A63 - sports
A99 - subject matter not otherwise provided for in this section
B - performing operations
B01 - physical or chemical processes or apparatus in general
B02 - crushing, pulverising, or disintegrating
B03 - separation of solid materials using liquids or using pneumatic tables or jigs
B04 - centrifugal apparatus or machines for carrying-out physical or chemical processes
B05 - spraying or atomising in general
B06 - generating or transmitting mechanical vibrations in general
B07 - separating solids from solids
B08 - cleaning
B09 - disposal of solid waste
B21 - mechanical metal-working without essentially removing material
B22 - casting
B23 - machine tools
B24 - grinding
B25 - hand tools
B26 - hand cutting tools
B27 - working or preserving wood or similar material
B28 - working cement, clay, or stone
B29 - working of plastics
B30 - presses
B31 - making articles of paper, cardboard or material worked in a manner analogous to paper
B32 - layered products
B33 - additive manufacturing technology
B41 - printing
B42 - bookbinding
B43 - writing or drawing implements
B44 - decorative arts
B60 - vehicles in general
B61 - railways
B62 - land vehicles for travelling otherwise than on rails
B63 - ships or other waterborne vessels
B64 - aircraft
B65 - conveying
B66 - hoisting
B67 - opening, closing {or cleaning} bottles, jars or similar containers
B68 - saddlery
B81 - microstructural technology
B82 - nanotechnology
B99 - subject matter not otherwise provided for in this section
C - chemistry
C01 - inorganic chemistry
C02 - treatment of water, waste water, sewage, or sludge
C03 - glass
C04 - cements
C05 - fertilisers
C06 - explosives
C07 - organic chemistry
C08 - organic macromolecular compounds
C09 - dyes
C10 - petroleum, gas or coke industries
C11 - animal or vegetable oils, fats, fatty substances or waxes
C12 - biochemistry
C13 - sugar industry
C14 - skins
C21 - metallurgy of iron
C22 - metallurgy
C23 - coating metallic material
C25 - electrolytic or electrophoretic processes
C30 - crystal growth
C40 - combinatorial technology
C99 - subject matter not otherwise provided for in this section
D - textiles
D01 - natural or man-made threads or fibres
D02 - yarns
D03 - weaving
D04 - braiding
D05 - sewing
D06 - treatment of textiles or the like
D07 - ropes
D10 - indexing scheme associated with sublasses of section d, relating to textiles
D21 - paper-making
D99 - subject matter not otherwise provided for in this section
E - fixed constructions
E01 - construction of roads, railways, or bridges
E02 - hydraulic engineering
E03 - water supply
E04 - building
E05 - locks
E06 - doors, windows, shutters, or roller blinds in general
E21 - earth drilling
E99 - subject matter not otherwise provided for in this section
F - mechanical engineering
F01 - machines or engines in general
F02 - combustion engines
F03 - machines or engines for liquids
F04 - positive - displacement machines for liquids
F05 - indexing schemes relating to engines or pumps in various subclasses of classes f01-f04
F15 - fluid-pressure actuators
F16 - engineering elements and units
F17 - storing or distributing gases or liquids
F21 - lighting
F22 - steam generation
F23 - combustion apparatus
F24 - heating
F25 - refrigeration or cooling
F26 - drying
F27 - furnaces
F28 - heat exchange in general
F41 - weapons
F42 - ammunition
F99 - subject matter not otherwise provided for in this section
G - physics
G01 - measuring
G02 - optics
G03 - photography
G04 - horology
G05 - controlling
G06 - computing
G07 - checking-devices
G08 - signalling
G09 - education
G10 - musical instruments
G11 - information storage
G12 - instrument details
G16 - information and communication technology [ict] specially adapted for specific application fields
G21 - nuclear physics
G99 - subject matter not otherwise provided for in this section
H - electricity
H01 - basic electric elements
H02 - generation
H03 - basic electronic circuitry
H04 - electric communication technique
H05 - electric techniques not otherwise provided for
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Y - new / cross sectional technologies
Y02 - technologies or applications for mitigation or adaptation against climate change
Y04 - information or communication technologies having an impact on other technology areas
Y10 - technical subjects covered by former uspc

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Title: Power systems utilizing the heat of produced formation fluid

Abstract

Systems, methods, and heaters for treating a subsurface formation are described herein. At least one method includes treating a hydrocarbon containing formation. The method may include providing heat to the formation; producing heated fluid from the formation; and generating electricity from at least a portion of the heated fluid using a Kalina cycle.

Inventors:

Lambirth, Gene Richard ^[1]

Houston, TX

Issue Date:: Tue Jan 11 00:00:00 EST 2011

Research Org.:: Oak Ridge National Laboratory (ORNL), Oak Ridge, TN (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 1013678

Patent Number(s):: 7866385

Application Number:: 11/788,822

Assignee:: Shell Oil Company (Houston, TX)

Patent Classifications (CPCs):: B - PERFORMING OPERATIONS B32 - LAYERED PRODUCTS B32B - LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM

C - CHEMISTRY C21 - METALLURGY OF IRON C21D - MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS

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B - PERFORMING OPERATIONS B32 - LAYERED PRODUCTS B32B - LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
B32B1/08 - Tubular products
B32B15/013 - {one layer being formed of an iron alloy or steel, another layer being formed of a metal other than iron or aluminium}
B32B15/015 - {the said other metal being copper or nickel or an alloy thereof}
B32B2307/202 - Conductive
B32B2307/208 - Magnetic, paramagnetic
B32B9/002 - {comprising natural stone or artificial stone}
B32B9/045 - {of synthetic resin}

C - CHEMISTRY C21 - METALLURGY OF IRON C21D - MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS
C21D2211/001 - Austenite
C21D2211/004 - Dispersions
C21D2211/005 - Ferrite
C21D6/002 - {containing Cr
C21D6/007 - {containing Co}

C - CHEMISTRY C22 - METALLURGY C22C - ALLOYS
C22C38/02 - containing silicon
C22C38/04 - containing manganese
C22C38/10 - containing cobalt
C22C38/12 - containing tungsten, tantalum, molybdenum, vanadium, or niobium
C22C38/14 - containing titanium or zirconium
C22C38/24 - with vanadium
C22C38/28 - with titanium or zirconium
C22C38/30 - with cobalt

E - FIXED CONSTRUCTIONS E21 - EARTH DRILLING E21B - EARTH DRILLING, e.g. DEEP DRILLING
E21B36/04 - using electrical heaters
E21B43/2401 - {by means of electricity}

G - PHYSICS G05 - CONTROLLING G05F - SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES
G05F1/10 - Regulating voltage or current

Y - NEW / CROSS SECTIONAL TECHNOLOGIES Y10 - TECHNICAL SUBJECTS COVERED BY FORMER USPC Y10S - TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
Y10S166/902 - for inhibiting corrosion or coating

Show less

DOE Contract Number:: AC05-00OR22725

Resource Type:: Patent

Country of Publication:: United States

Language:: English

Subject:: 30 DIRECT ENERGY CONVERSION

Citation Formats


                    Lambirth, Gene Richard. Power systems utilizing the heat of produced formation fluid.  United States: N. p., 2011. 
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                    Lambirth, Gene Richard. Power systems utilizing the heat of produced formation fluid.  United States.

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                    Lambirth, Gene Richard. Tue .  
        "Power systems utilizing the heat of produced formation fluid".  United States.  https://www.osti.gov/servlets/purl/1013678.

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@article{osti_1013678,

  title        = {Power systems utilizing the heat of produced formation fluid},

  author       = {Lambirth, Gene Richard},

  abstractNote = {Systems, methods, and heaters for treating a subsurface formation are described herein. At least one method includes treating a hydrocarbon containing formation. The method may include providing heat to the formation; producing heated fluid from the formation; and generating electricity from at least a portion of the heated fluid using a Kalina cycle.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {Tue Jan 11 00:00:00 EST 2011},

  month        = {Tue Jan 11 00:00:00 EST 2011}

}

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Works referenced in this record:

The Thermal and Structural Properties of a Hanna Basin Coal
journal, June 1984

Glass, R. E.
Journal of Energy Resources Technology, Vol. 106, Issue 2
https://doi.org/10.1115/1.3231050

On the mechanism of kerogen pyrolysis
journal, October 1984

Burnham, Alan K.; Happe, James A.
Fuel, Vol. 63, Issue 10, p. 1353-1356
https://doi.org/10.1016/0016-2361(84)90336-3

Recent Experimental work on Solute Redistribution at the Ice/Water Interface. Implications for Electrical Properties and Interface Processes
journal, March 1987

Gross, G. W.; Gutjahr, A.; Caylor, K.
Le Journal de Physique Colloques, Vol. 48, Issue C1
https://doi.org/10.1051/jphyscol:1987172

Chemical Kinetics and Oil Shale Process Design
book, January 1995

Burnham, Alan K.
Composition, Geochemistry and Conversion of Oil Shales
https://doi.org/10.1007/978-94-011-0317-6_16

Kinetics of oil generation from Colorado oil shale
journal, June 1978

Campbell, J.; Koskinas, G.; Stout, N.
Fuel, Vol. 57, Issue 6, p. 372-376
https://doi.org/10.1016/0016-2361(78)90176-X

Converter-fed subsea motor drives
journal, January 1996

Raad, R. O.; Henriksen, T.; Raphael, H. B.
IEEE Transactions on Industry Applications, Vol. 32, Issue 5
https://doi.org/10.1109/28.536868

The Viscosity of Air, Water, Natural Gas, Crude Oil and Its Associated Gases at Oil Field Temperatures and Pressures
journal, December 1946

Beal, Carlton
Transactions of the AIME, Vol. 165, Issue 01
https://doi.org/10.2118/946094-G

Some Effects of Pressure on Oil-Shale Retorting
journal, September 1969

Bae, J. H.
Society of Petroleum Engineers Journal, Vol. 9, Issue 03
https://doi.org/10.2118/2210-PA

The case for frequency domain PD testing in the context of distribution cable
journal, July 2003

Boggs, S.
IEEE Electrical Insulation Magazine, Vol. 19, Issue 4
https://doi.org/10.1109/MEI.2003.1226730

Molecular Mechanism of Oil Shale Pyrolysis in Nitrogen and Hydrogen Atmospheres
book, August 1983

Hershkowitz, F.; Olmstead, W. N.; Rhodes, R. P.
ACS Symposium Series
https://doi.org/10.1021/bk-1983-0230.ch015

Application of a Microretort to Problems in Shade Pyrolysis
journal, July 1970

Weitkamp, A. W.; Gutberlet, L. C.
Industrial & Engineering Chemistry Process Design and Development, Vol. 9, Issue 3
https://doi.org/10.1021/i260035a006

An Analog Computer for Studying Heat Transfer During a Thermal Recovery Process
journal, December 1955

Vogel, L. C.; Krueger, R. F.
Transactions of the AIME, Vol. 204, Issue 01
https://doi.org/10.2118/534-G

Geochemistry and Pyrolysis of Oil Shales
book, August 1983

Tissot, B. P.; Vandenbroucke, M.
ACS Symposium Series
https://doi.org/10.1021/bk-1983-0230.ch001

The Characteristics of a Low Temperature In Situ Shale Oil
conference, April 2013

Hill, George R.; Dougan, Paul
Annual Meeting of the American Institute of Mining, Metallurgical, and Petroleum Engineers
https://doi.org/10.2118/1745-MS

Salt and Water Movement in Unsaturated Frozen Soil
journal, July 1972

Cary, J. W.; Mayland, H. F.
Soil Science Society of America Journal, Vol. 36, Issue 4
https://doi.org/10.2136/sssaj1972.03615995003600040019x

Evaluation of downhole electric impedance heating systems for paraffin control in oil wells
journal, January 1992

Bosch, F. G.; Schmitt, K. J.; Eastlund, B. J.
IEEE Transactions on Industry Applications, Vol. 28, Issue 1
https://doi.org/10.1109/28.120230

Analysis of oil shale and petroleum source rock pyrolysis by triple quadrupole mass spectrometry: comparisons of gas evolution at the heating rate of 10.degree.C/min
journal, May 1991

Reynolds, John G.; Crawford, Richard W.; Burnham, Alan K.
Energy & Fuels, Vol. 5, Issue 3
https://doi.org/10.1021/ef00027a025

Electrical Heating With Horizontal Wells, The Heat Transfer Problem
conference, April 2013

McGee, Bruce C. W.; Vermeulen, Frederick E.
International Conference on Horizontal Well Technology
https://doi.org/10.2118/37117-MS

Monitoring oil shale retorts by off-gas alkenealkane ratios
journal, June 1980

Raley, John H.
Fuel, Vol. 59, Issue 6, p. 419-424
https://doi.org/10.1016/0016-2361(80)90195-7

Direct Production of Low Pour Point High Gravity Shale Oil
journal, March 1967

Hill, G. R.; Johnson, D. J.; Miller, Lowell
Industrial & Engineering Chemistry Product Research and Development, Vol. 6, Issue 1
https://doi.org/10.1021/i360021a009

Thermomolecular Pressure in Surface Melting: Motivation for Frost Heave
journal, December 1989

Dash, J. G.
Science, Vol. 246, Issue 4937
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Methods and Energy Sources for Heating Subsurface Geological Formation, Task 1: Heat Delivery Systems
report, January 2003

Moreno, James B.; Rawlinson, Kim Scott; Jones, Scott A.
https://doi.org/10.2172/809444

A Possible Mechanism of Alkene/Alkane Production
book, September 1981

Burnham, A. K.; Ward, R. L.
ACS Symposium Series
https://doi.org/10.1021/bk-1981-0163.ch006

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Similar Records

Title: Power systems utilizing the heat of produced formation fluid

Abstract

Citation Formats

The Thermal and Structural Properties of a Hanna Basin Coal journal, June 1984

On the mechanism of kerogen pyrolysis journal, October 1984

Recent Experimental work on Solute Redistribution at the Ice/Water Interface. Implications for Electrical Properties and Interface Processes journal, March 1987

Chemical Kinetics and Oil Shale Process Design book, January 1995

Kinetics of oil generation from Colorado oil shale journal, June 1978

Converter-fed subsea motor drives journal, January 1996

The Viscosity of Air, Water, Natural Gas, Crude Oil and Its Associated Gases at Oil Field Temperatures and Pressures journal, December 1946

Some Effects of Pressure on Oil-Shale Retorting journal, September 1969

The case for frequency domain PD testing in the context of distribution cable journal, July 2003

Molecular Mechanism of Oil Shale Pyrolysis in Nitrogen and Hydrogen Atmospheres book, August 1983

Application of a Microretort to Problems in Shade Pyrolysis journal, July 1970

An Analog Computer for Studying Heat Transfer During a Thermal Recovery Process journal, December 1955

Geochemistry and Pyrolysis of Oil Shales book, August 1983

The Characteristics of a Low Temperature In Situ Shale Oil conference, April 2013

Salt and Water Movement in Unsaturated Frozen Soil journal, July 1972

Evaluation of downhole electric impedance heating systems for paraffin control in oil wells journal, January 1992

Analysis of oil shale and petroleum source rock pyrolysis by triple quadrupole mass spectrometry: comparisons of gas evolution at the heating rate of 10.degree.C/min journal, May 1991

Electrical Heating With Horizontal Wells, The Heat Transfer Problem conference, April 2013

Monitoring oil shale retorts by off-gas alkenealkane ratios journal, June 1980

Direct Production of Low Pour Point High Gravity Shale Oil journal, March 1967

Thermomolecular Pressure in Surface Melting: Motivation for Frost Heave journal, December 1989

Methods and Energy Sources for Heating Subsurface Geological Formation, Task 1: Heat Delivery Systems report, January 2003

A Possible Mechanism of Alkene/Alkane Production book, September 1981

The Thermal and Structural Properties of a Hanna Basin Coal
journal, June 1984

On the mechanism of kerogen pyrolysis
journal, October 1984

Recent Experimental work on Solute Redistribution at the Ice/Water Interface. Implications for Electrical Properties and Interface Processes
journal, March 1987

Chemical Kinetics and Oil Shale Process Design
book, January 1995

Kinetics of oil generation from Colorado oil shale
journal, June 1978

Converter-fed subsea motor drives
journal, January 1996

The Viscosity of Air, Water, Natural Gas, Crude Oil and Its Associated Gases at Oil Field Temperatures and Pressures
journal, December 1946

Some Effects of Pressure on Oil-Shale Retorting
journal, September 1969

The case for frequency domain PD testing in the context of distribution cable
journal, July 2003

Molecular Mechanism of Oil Shale Pyrolysis in Nitrogen and Hydrogen Atmospheres
book, August 1983

Application of a Microretort to Problems in Shade Pyrolysis
journal, July 1970

An Analog Computer for Studying Heat Transfer During a Thermal Recovery Process
journal, December 1955

Geochemistry and Pyrolysis of Oil Shales
book, August 1983

The Characteristics of a Low Temperature In Situ Shale Oil
conference, April 2013

Salt and Water Movement in Unsaturated Frozen Soil
journal, July 1972

Evaluation of downhole electric impedance heating systems for paraffin control in oil wells
journal, January 1992

Analysis of oil shale and petroleum source rock pyrolysis by triple quadrupole mass spectrometry: comparisons of gas evolution at the heating rate of 10.degree.C/min
journal, May 1991

Electrical Heating With Horizontal Wells, The Heat Transfer Problem
conference, April 2013

Monitoring oil shale retorts by off-gas alkenealkane ratios
journal, June 1980

Direct Production of Low Pour Point High Gravity Shale Oil
journal, March 1967

Thermomolecular Pressure in Surface Melting: Motivation for Frost Heave
journal, December 1989

Methods and Energy Sources for Heating Subsurface Geological Formation, Task 1: Heat Delivery Systems
report, January 2003

A Possible Mechanism of Alkene/Alkane Production
book, September 1981