Process for generating burnable gas
First Claim
1. A process for generating burnable gas from organic materials comprising:
- drying the organic materials by direct or indirect supply of physical enthalpy to form dried materials, and subjecting said dried materials to low-temperature carbonization at 350°
to 500°
C., thereby effecting thermal decomposition into a carbonization gas comprising liquid hydrocarbons, steam, and coke, wherein said coke comprises carbon and an inorganic portion;
burning the carbonization gas with one or more of air, oxygen and oxygen-containing exhaust gases at temperatures above the melting temperature of said inorganic portion to form combustion gas, and removing molten inorganic portions;
converting the combustion gas into gasification gas by decreasing the gas temperature to 800°
to 900°
C., and blowing at least a portion of said coke, which has optionally been ground to form a pulverized fuel, into the combustion gas at 1200°
to 2000°
C., whereby said coke at least partially reduces carbon dioxide present to carbon monoxide, at least partially reduces said steam to hydrogen, and consumes heat;
processing the gasification gas, optionally after indirect and/or direct cooling, by dedusting and chemically cleaning said gasification gas to produce a burnable gas, and feeding dust containing carbon removed from said gasification gas to said burning step.
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Accused Products
Abstract
A process is disclosed for generating burnable gas by gasifying water- and ballast-containing organic materials, be it coal or garbage. The drying, low temperature carbonization and gasification steps are carried out separately. The heat taken form cooled gasified gas is supplied to the endothermic drying low temperature in low temperature carbonation stages. The low temperature carbonization gas is burned in a melting chamber furnace with air and/or oxygen or oxygen-rich flue gas and the liquid slag is evacuated, whereas the low temperature carbonization coke is blown into the hot combustion gases that leave the melting reactions which take place and give carbon monoxide and hydrogen reduce the carbon is removed from the gasified gas, supplied to the melting chamber furnace and completely burned. The advantage of the invention is that the ashes may be transformed into an elution-resistant granulated building material, in that a tar-free burnable gas is generated and in that oxygen consumption is strongly reduced in comparison with the fly stream gasification process.
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Citations
13 Claims
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1. A process for generating burnable gas from organic materials comprising:
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drying the organic materials by direct or indirect supply of physical enthalpy to form dried materials, and subjecting said dried materials to low-temperature carbonization at 350°
to 500°
C., thereby effecting thermal decomposition into a carbonization gas comprising liquid hydrocarbons, steam, and coke, wherein said coke comprises carbon and an inorganic portion;burning the carbonization gas with one or more of air, oxygen and oxygen-containing exhaust gases at temperatures above the melting temperature of said inorganic portion to form combustion gas, and removing molten inorganic portions; converting the combustion gas into gasification gas by decreasing the gas temperature to 800°
to 900°
C., and blowing at least a portion of said coke, which has optionally been ground to form a pulverized fuel, into the combustion gas at 1200°
to 2000°
C., whereby said coke at least partially reduces carbon dioxide present to carbon monoxide, at least partially reduces said steam to hydrogen, and consumes heat;processing the gasification gas, optionally after indirect and/or direct cooling, by dedusting and chemically cleaning said gasification gas to produce a burnable gas, and feeding dust containing carbon removed from said gasification gas to said burning step. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification
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- Resources
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Current AssigneeLinde AG (Linde Plc)
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Original AssigneeCRG Kohlenstoffrecycling GmbH
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InventorsWolf, Bodo
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Primary Examiner(s)Marschel, Ardin H.
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Assistant Examiner(s)Riley, Jezia
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Application NumberUS08/693,167Time in Patent Office853 DaysField of Search48/73, 48/111, 48/197 R, 48/202, 48/209, 60/39.12US Class Current48/197.00RCPC Class CodesC10J 2300/0906 Physical processes, e.g. sh...C10J 2300/0959 OxygenC10J 2300/1628 Ash post-treatmentC10J 3/66 by introducing them into th...
