This study aimed to discuss the removal of hydrogen sulfide (H2S) with non-thermal plasma produced by a multilayer tubular dielectric barrier discharge reactor, which is useful in the field of plasma environmental applications. We explored the influence of various factors upon H2S removal efficiency (eta(H2)s) and energy yield (Ey), such as specific energy density (SED), initial concentration, gas flow velocity and the reactor configuration. The study showed that we can achieve eta(H2)s of 91% and the best Ey of 3100 mg kWh(-1) when we set the SED, gas flow velocity, initial H2S concentration and layers of quartz tubes at 33.2 Jl(-1), 8.0 ms(-1), 30mg m(-3) and five layers, correspondingly. The average rate constant for the decomposition of hydrogen sulfide was 0.206 g m(-3) s(-1). In addition, we also presented the optimized working conditions, byproduct analysis and decomposition mechanism.

• 出版日期2017-4-1
• 单位复旦大学