Conversion of Hot Coke Oven Gas into Light Fuel Gas over Ni/Al_2O_3 Catalyst
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概要
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Conversion of hot coke oven gas (COG, containing tarry material) into light fuel gas over a Ni/Al2O3 catalyst was studied. Laboratory scale tests were carried out in a two-stage fixed-bed reactor at ambient pressure. The nickel catalyst promoted the hydropyrolysis reaction of tarry materials. High yields of total product gas and methane were obtained at high hydrogen concentrations. If the hydrogen supply was adequate for hydropyrolysis of the tarry material, conversion of coal volatiles was high, at more than 95% on carbon balance, even with a gas residence time as short as 0.15 s in the catalyst bed. The product gas yield depended on catalytic temperature. At 923 K, the maximum conversion of coal volatiles into the light gas was achieved at 95.0% on carbon balance, with methane 86.7 vol% of the carbonaceous gas product. Although carbon deposits deactivated the catalyst after a long period of use, the catalyst could be regenerated by treatment with oxygen at 800 K, providing high activity in subsequent decomposition of tarry material. The influence of sulphide on the tarry material decomposition reaction was small even in a 2000 ppm H2S atmosphere.
- 社団法人 化学工学会の論文
- 2006-04-01
著者
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TAKARADA Takayuki
Department of Chemical and Environmental Engineering, Gunma University
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Morishita Kayoko
Department of Chemical and Environmental Engineering, Gunma University
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Li Liuyun
Gunma Industry Support Organization
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LI Liuyun
Department of Biological and Chemical Engineering, Gunma University
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Morishita Kayoko
Department Of Chemical And Environmental Engineering Gunma University
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Takarada Takayuki
Department Of Biological And Chemical Engineering Gunma University
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Takarada Takayuki
Department Of Chemical And Environmental Engineering Gunma University
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Takarada Takayuki
Dep. Of Chemical And Environmental Engineering Gunma Univ.
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Morishita Kayoko
Dep. Of Chemical And Environmental Engineering Gunma Univ.
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Morishita Kayoko
Department of Biological and Chemical Engineering, Gunma University
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