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The role of N2 carrier gas toward the conversion of tar analogue (toluene) was studied in a non-thermal plasma dielectric barrier discharge reactor. The parameters investigated were power (5–40 W),… Click to show full abstract
The role of N2 carrier gas toward the conversion of tar analogue (toluene) was studied in a non-thermal plasma dielectric barrier discharge reactor. The parameters investigated were power (5–40 W), residence time (1.43–4.23 s), toluene concentration (20–82 g/Nm3), and wall temperature (from ambient to 400 °C). Almost complete removal (99%) of toluene was observed at 40 W and 4.23 s. The main gaseous product was H2, with a maximum selectivity of 40%. The other gaseous products were lighter hydrocarbons (LHCs, C1–C6, 5.5%). The selectivity to these LHCs could be increased to 10% by increasing the temperature to 400 °C. Introducing H2 to the N2 carrier gas at elevated temperatures opened up new reaction routes to enhance the selectivity to LHCs. The selectivity to methane reached 44% at 35% H2 at 400 °C, and the total selectivity to LHCs reached 57%.
Journal Title: Energy & Fuels
Year Published: 2018
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