CAJ | 학술논문

利用电场作用通过交流和直流等离子体在低温、常压和低功率下催化反应将甲烷直接转化为碳二烃(乙烷、乙烯、乙炔)。考察了在对称电场作用下催化剂的催化性能。实验结果表明，在交流电场作用下，碳二烃选择性差别不大；甲烷转化率的大小顺序为：MnO2/Al2O3＞Ni/Al2O3＞MoO—Al2O3＞Ni/NaY＞Pd/ZSM-5＞Ni/H4Mg2Si3O4＞Ni/ZSM-5＞Co/ZSM-5＞无催化剂：在直流电场作用下，碳二烃选择性差别也不大(除Ni/NaY外)，甲烷转化率的大小顺序为：Ni/Al2O3＞Ni/HaMg2Si3O4＞Ni/ZSM-5＞Co/ZSM-5＞MnO2/Al2O3＞MoO3/Al2O3＞Ni/NaY＞无催化剂＞Pd/ZSM-5。
이용전장작용통과교류화직류등리자체재저온、상압화저공솔하최화반응장갑완직접전화위탄이경(을완、을희、을결)。고찰료재대칭전장작용하최화제적최화성능。실험결과표명，재교류전장작용하，탄이경선택성차별불대；갑완전화솔적대소순서위：MnO2/Al2O3＞Ni/Al2O3＞MoO—Al2O3＞Ni/NaY＞Pd/ZSM-5＞Ni/H4Mg2Si3O4＞Ni/ZSM-5＞Co/ZSM-5＞무최화제：재직류전장작용하，탄이경선택성차별야불대(제Ni/NaY외)，갑완전화솔적대소순서위：Ni/Al2O3＞Ni/HaMg2Si3O4＞Ni/ZSM-5＞Co/ZSM-5＞MnO2/Al2O3＞MoO3/Al2O3＞Ni/NaY＞무최화제＞Pd/ZSM-5。
Low-power catalytic conversion of methane to C2 hydrocarbons(ethane, ethCene and acetylene) through AC or DC plasma catalysis reactionsin symmetric electrical field was studied under low temperature andatmospheric pressure. The function of catalyst was tested. The appropriate condition was: voltage 90 V～1l0 V (power 15 W～20 W DC); voltage 20 V～40 V (AC). The appropriate inlet flow of methane was 45 mL/min～80mL/min under AC and DC field. The selectivity to C2 hydrocarbons was above 95%.