Abstract

代替航空燃料(ケロシン相当の炭化水素)製造を目的として,34 vol% H2,16 vol% CO,50 vol% N2の合成ガスおよびコバルト系触媒を用いたフィッシャー・トロプシュ(FT)合成を温度230℃,圧力3.0 MPaでダウンドラフト連続ガス流通型固定層反応器を用いて5時間行い,触媒空間速度(W/F)およびキレート剤のケロシン収率および炭素物質収支への影響を検討した。炭素数6以上の炭化水素において,COの炭素数11-14(ケロシン相当)の炭化水素への選択率は2番目に高く,ガソリン相当の炭素数6-10の炭化水素への選択率がもっとも高かった。ケロシン収率が最大となったのはW/F が9 g h/molの場合であった。触媒にキレート剤を添加すると,CO2への選択率が減少した。CyDTAキレート剤を触媒に添加した場合,COの炭素数11-14(ケロシン相当)の炭化水素への選択率が最大となった。

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