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A DIRECT CATALYTIC CONVERSION OF NATURAL GAS TO C2+ HYDROCARBONS BY MICROWAVE PLASMA

Cho W Baek Y Pang H Kim YC

Korean Journal of Chemical Engineering, September 1998, 15(5), 500-504(5), 10.1007/BF02707099

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Abstract

Methane, the major constituent of natural gas, was converted to higher hydrocarbons by a microwave plasma. The yield of C2+ products increased from 29.2% to 42.2% with increasing plasma power and decreasing flow rate of methane. When catalysts were used in the plasma reactor, the selectivities of ethylene and acetylene increased, while the yield of C2+ remained constant. Among various catalysts used, Fe catalyst showed the highest ethylene selectivity of 30%. And when the actual natural gas was introduced, more C2+ products were obtained (46%). This is due to the ethane and propane in the natural gas. Applying electric field inductance for evolving the high plasma, we obtained high C2+ products of 63.7% when Pd-Ni bimetal catalyst was used.

Keywords

Microwave Plasma Catalysis Electric Field Inductance C2+ Products Methane Conversion Natural Gas

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