Method and apparatus for sequestering carbon dioxide in the deep ocean or aquifers
First Claim
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1. A system for sequestering carbon dioxide in deep water comprising:
- a. a source of gaseous carbon dioxide;
b. a source of seawater at a depth of greater than 500 meters and a temperature of about 0°
to 10°
C.c. a compressor in fluid communication with said gaseous carbon dioxide for compressing said carbon dioxide;
d. a heat exchanger in fluid communication with said compressor for receiving and precooling said compressed carbon dioxide;
e. a refrigeration unit in fluid communication with said heat exchanger for receiving and subcooling said precooled, compressed carbon dioxide to at temperature between approximately 0°
C. and -30°
C.;
e. a clathrate reactor vessel in fluid communication with said refrigeration unit for receiving said sub-cooled carbon dioxide from said refrigeration unit;
f. means for transporting and splitting said cold seawater into first and second streams, said first stream to feed said clathrate reactor for production of clathrates and said second stream for precooling said carbon dioxide and transporting said clathrates as a slurry to depths greater than 500 meters;
g. means for mixing said subcooled carbon dioxide and said seawater in said clathrate reactor vessel thereby forming clathrates; and
h. means for transporting said clathrates to a depth greater than 500 meters in said seawater;
whereby said seawater is used to precool gaseous carbon dioxide which is then subcooled and mixed with cold seawater to form clathrates which are deposited in the deep water at a depth greater than 500 meters to sequester said carbon dioxide.
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Abstract
Disclosed is a system for sequestering carbon dioxide by combining sub-cooled carbon dioxide gas phase and liquid water (fresh or salt) in a reactor to form carbon dioxide clathrates in a continuous process at pressures from 3 to 20 atmospheres. The seawater feed for the clathrate reactor is pumped to the surface from a depth of approximately 1000 meters. A slip stream of the reactor feed water is used to pre-cool the carbon dioxide gases. The pre-cooled gaseous, or liquid carbon dioxide and the reactor surfaces are then sub-cooled by refrigeration to temperatures of -40° C. to 0° C., which is typically only 5° to 45° C. below ambient sea water temperatures at depths of 1000 meters. Forming clathrates in this manner is considerably less energy-intensive than CO2 compression and liquefaction at high pressures.
66 Citations
9 Claims
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1. A system for sequestering carbon dioxide in deep water comprising:
-
a. a source of gaseous carbon dioxide; b. a source of seawater at a depth of greater than 500 meters and a temperature of about 0°
to 10°
C.c. a compressor in fluid communication with said gaseous carbon dioxide for compressing said carbon dioxide; d. a heat exchanger in fluid communication with said compressor for receiving and precooling said compressed carbon dioxide; e. a refrigeration unit in fluid communication with said heat exchanger for receiving and subcooling said precooled, compressed carbon dioxide to at temperature between approximately 0°
C. and -30°
C.;e. a clathrate reactor vessel in fluid communication with said refrigeration unit for receiving said sub-cooled carbon dioxide from said refrigeration unit; f. means for transporting and splitting said cold seawater into first and second streams, said first stream to feed said clathrate reactor for production of clathrates and said second stream for precooling said carbon dioxide and transporting said clathrates as a slurry to depths greater than 500 meters; g. means for mixing said subcooled carbon dioxide and said seawater in said clathrate reactor vessel thereby forming clathrates; and h. means for transporting said clathrates to a depth greater than 500 meters in said seawater; whereby said seawater is used to precool gaseous carbon dioxide which is then subcooled and mixed with cold seawater to form clathrates which are deposited in the deep water at a depth greater than 500 meters to sequester said carbon dioxide. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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Current AssigneeElectric Power Research Institute Incorporated
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Original AssigneeElectric Power Research Institute Incorporated
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InventorsSpencer, Dwain F.
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Primary Examiner(s)Warden, Robert J.
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Assistant Examiner(s)MCKANE, ELIZABETH L
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Application NumberUS07/956,520Time in Patent Office890 DaysField of Search422/243, 422/211, 55/68, 48/190US Class Current422/243CPC Class CodesB09B 1/002 Sea dumpingF17C 1/007 Underground or underwater s...F17C 11/00 Use of gas-solvents or gas-...F17C 2205/0323 ValvesF17C 2205/0352 PipesF17C 2221/013 Carbone dioxideF17C 2221/03 MixturesF17C 2223/0123 gaseous, e.g. CNG, GNCF17C 2225/0169 subcooledF17C 2225/0184 Liquids and solidsF17C 2225/033 Small pressure, e.g. for li...F17C 2225/035 High pressure, i.e. between...F17C 2225/044 at several points, e.g. wit...F17C 2227/0121 by gravityF17C 2227/0135 PumpsF17C 2227/0157 CompressorsF17C 2227/0351 using seawaterF17C 2227/0383 outside the vesselF17C 2227/039 on the pipesF17C 2260/044 Avoiding pollution or conta...View All
