Hydrogen storage in carbon material
First Claim
1. A method for storing hydrogen in a carbon material comprising turbostratic microstructures of elemental carbon, said microstructures including cones, the cone angles of which being multiples of 60°
- ,said method comprising steps for a) introducing said carbon material in a reaction vessel, b) evacuating said reaction vessel to a pressure less than 10−
6 torr by keeping the carbon material at a temperature in the range of 295 K to 800 K, c) introducing pure hydrogen gas in the evacuated reaction vessel to expose the carbon material to said pure hydrogen gas at a pressure in the range of 300 torr to 7600 torr, d) allowing said pure hydrogen gas to be absorbed into said microstructures of said carbon material, and e) leaving said reaction vessel at ambient temperature, typically 295 K or slightly below, the material contained therein being under a fixed hydrogen gas pressure within said pressure range, the hydrogen as required being released as a gas from said carbon material at said ambient temperature or by heating said carbon material in said reaction vessel.
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Abstract
In a method for storing hydrogen in a carbon material containing microstructures in the form of cones with cone angles being multiples of 60°, the carbon material is introduced in a reaction vessel which is evacuated while the carbon material is kept at a temperature of 295-800 K, after which pure hydrogen gas is introduced in the reaction vessel, the carbon material being exposed to a hydrogen gas pressure in the range of 300-7600 torr such that the hydrogen gas is absorbed in the carbon material, and after which the reaction vessel is left at the ambient temperature with the carbon material under a fixed hydrogen gas pressure. For use the hydrogen is released in the form of a gas from the carbon material either at ambient temperature or by heating the carbon material in the reaction vessel. In a method for refining a carbon material of this kind for hydrogen storage, the carbon material is produced in a reaction chamber with the use of a catalyst for adjusting the cone angle distribution of the microstructures. Use for storing of hydrogen as fuel for powering transport means, including vehicles.
50 Citations
6 Claims
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1. A method for storing hydrogen in a carbon material comprising turbostratic microstructures of elemental carbon, said microstructures including cones, the cone angles of which being multiples of 60°
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said method comprising steps for a) introducing said carbon material in a reaction vessel, b) evacuating said reaction vessel to a pressure less than 10−
6 torr by keeping the carbon material at a temperature in the range of 295 K to 800 K,c) introducing pure hydrogen gas in the evacuated reaction vessel to expose the carbon material to said pure hydrogen gas at a pressure in the range of 300 torr to 7600 torr, d) allowing said pure hydrogen gas to be absorbed into said microstructures of said carbon material, and e) leaving said reaction vessel at ambient temperature, typically 295 K or slightly below, the material contained therein being under a fixed hydrogen gas pressure within said pressure range, the hydrogen as required being released as a gas from said carbon material at said ambient temperature or by heating said carbon material in said reaction vessel. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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- Resources
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Current AssigneeInstitutt For Energiteknikk
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Original AssigneeInstitutt For Energiteknikk
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InventorsMaeland, Arnulf Julius, Skjeltorp, Arne Torbjørn
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Primary Examiner(s)Simmons, David A.
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Assistant Examiner(s)LAWRENCE JR, FRANK M
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Application NumberUS09/381,791Time in Patent Office727 DaysField of Search951/16, 959/00, 959/01, 959/03, 206/0.7, 423/648.1, 423/448, 423/445.B, 502/180, 502/416, 502/526US Class Current95/116CPC Class CodesB82Y 30/00 Nanotechnology for material...C01B 3/0021 Carbon, e.g. active carbon,...C01B 32/05 Preparation or purification...F17C 11/005 for hydrogenY02E 60/32 Hydrogen storageY10S 502/526 Sorbent for fluid storage, ...Y10S 95/903 CarbonY10S 977/742 Carbon nanotubes, CNTsY10S 977/843 Gas phase catalytic growth,...Y10S 977/948 Energy storage/generating u...
