Hydrogen-rich reformed gas is produced by reaction including partial oxidation of feed gas in a reforming reaction section ( 6 ). In this case, for the purpose of reducing temperature variations in the reforming reaction section ( 6 ), improving the thermal efficiency thereof and providing a reforme
Hydrogen-rich reformed gas is produced by reaction including partial oxidation of feed gas in a reforming reaction section ( 6 ). In this case, for the purpose of reducing temperature variations in the reforming reaction section ( 6 ), improving the thermal efficiency thereof and providing a reformer (A) with a simple and compact construction, the reformer (A) is formed in a double-wall structure consisting of a housing ( 1 ) and partitions ( 2 ), ( 2 ) inside of the housing ( 1 ), the reforming reaction section ( 6 ) is contained between the partitions ( 2 ), ( 2 ), and a feed gas passage ( 3 ) is provided by the space between the housing ( 1 ) and the partition ( 2 ). In this manner, the feed gas passage ( 3 ) is provided in the surrounding area of the reforming reaction section ( 6 ). The reforming reaction section ( 6 ) is thermally insulated by the feed gas passage ( 3 ) so that temperature variations in the reforming reaction section ( 6 ) can be reduced. The feed gas in the feed gas passage ( 3 ) is preheated by heat of reaction in the reforming reaction section ( 6 ) so that the self-recovery of heat can improve thermal efficiency of the reformer (A). In addition, a preheater for preheating the feed gas can be formed integrally between the feed gas passage ( 3 ) and the reforming reaction section ( 6 ) thereby compacting the construction of the reformer.
대표청구항▼
1. A partial oxidation reformer having a reforming reaction section ( 6 ) for producing hydrogen-rich reformed gas from feed gas by reaction including partial oxidation, characterized in that:said reformer includes a cylindrical housing ( 1 ) and a cylindrical partition ( 2 ) that is disposed in and
1. A partial oxidation reformer having a reforming reaction section ( 6 ) for producing hydrogen-rich reformed gas from feed gas by reaction including partial oxidation, characterized in that:said reformer includes a cylindrical housing ( 1 ) and a cylindrical partition ( 2 ) that is disposed in and spaced away from the housing ( 1 ) and internally provided with the reforming reaction section ( 6 );a reformed gas passage ( 11 ) that communicates with an outlet ( 6 b ) of the reforming reaction section ( 6 ) is provided in the partition ( 2 ) and a feed gas passage ( 3 ) that communicates with an inlet ( 6 a ) of the reforming reaction section ( 6 ) is provided between the housing ( 1 ) and the partition ( 2 ); anda heat exchanger ( 14 ) is provided for exchanging heat between the reformed gas in the reformed gas passage ( 11 ) and the feed gas in the feed gas passage ( 3 ). 2. The partial oxidation reformer of claim 1, characterized in that a heat transfer rate control member ( 10 ) is provided for controlling the rate of heat transfer between the reforming reaction section ( 6 ) and the feed gas passage ( 3 ). 3. The partial oxidation reformer of claim 2, characterized in that the heat transfer rate control member ( 10 ) is of fire-resistant thermal insulant. 4. The partial oxidation reformer of claim 1, characterized in that the reforming reaction section ( 6 ), the feed gas passage ( 3 ), the reformed gas passage ( 11 ) and the heat transfer rate control member ( 10 ) are provided integrally in the housing ( 1 ). 5. The partial oxidation reformer of claim 1, characterized in that the reforming reaction section ( 6 ) is formed of a monolith ( 7 ) with a honeycomb structure. 6. The partial oxidation reformer of claim 1, characterized in thatthe heat exchanger ( 14 ) includes heat transfer fins ( 15 ), ( 16 ) that are presented to the feed gas passage ( 3 ) and the reformed gas passage ( 11 ), respectively, and run along respective gas flows in the feed and reformed gas passages, andthe heat transfer fins ( 15 ), ( 16 ) are bent in a corrugated shape. 7. The partial oxidation reformer of claim 6, characterized in that the heat transfer fins ( 15 ), ( 16 ) are fixed to surrounding walls by brazing. 8. The partial oxidation reformer of claim 6 or 7, characterized in that the heat transfer fins ( 15 ), ( 16 ) are each formed with slits ( 17 ). 9. The partial oxidation reformer of claim 1, caracterized in that the feed gas passage ( 3 ) is provided at a portion thereof upstream from the heat exchanger ( 14 ) with a heat recovery section ( 34 ) formed of a substantially annular space which is located away from the reforming reaction section ( 6 ) or the heat exchanger ( 14 ) to surround at least one of the reforming reaction section ( 6 ) and the eat exchanger ( 14 ). 10. The partial oxidation reformer of claim 9, characterized in that a heat transfer rate control member ( 22 ) is interposed between the heat recovery section ( 34 ) and the reforming reaction section ( 6 ) or the heat exchanger ( 14 ). 11. The partial oxidation reformer of claim 1, characterized in that the reformed gas passage ( 11 ) may be provided in the vicinity of the reforming reaction section ( 6 ) to communicate the outlet ( 6 b ) of the reforming reaction section ( 6 ) with the heat exchanger ( 14 ) therethrough. 12. The partial oxidation reformer of claim 1, characterized in thatthe reforming reaction section ( 6 ) is divided into a first reaction section ( 43 ) and a second reaction section ( 44 ), the second reaction section ( 44 ) being provided in the vicinity of the first reaction section ( 43 ) to communicate at an inlet thereof with an outlet of the first reaction section ( 43 ), andthe first and second reaction sections ( 43 ), ( 44 ) have gas flows in opposite directions.
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이 특허에 인용된 특허 (2)
Lywood Warwick J. (Yarm GB2) Twigg Martyn V. (Yarm GB2), Hydrogen production.
Allam Rodney J. (Guildford GB2) Bassett John D. (Surrey PA GB2) Abrardo Joseph M. (Schnecksville PA) Da Prato Philip L. (Whitehouse NJ), Integrated plate-fin heat exchange reformation.
Arakelyan, Gamlet Gurgenovich; Arakelyan, Artur Gamletovich; Arakelyan, Grant Gamletovich, Method for producing hydrogen-containing gaseous fuel and thermal gas-generator plant.
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