Application of atmospheric pressure microwave plasma source for production of hydrogen via methane reforming

In this paper, results of hydrogen production via methane pyrolysis in the atmospheric pressure microwave plasma with CH4 swirl are presented. A waveguide-based nozzleless cylinder-type microwave plasma source (MPS) was used to convert methane into hydrogen. The plasma generation was stabilized by a CH4 swirl having a flow rate of 87.5 L min(-1). The absorbed microwave power was 1.5-5 kW. The hydrogen production rate and the corresponding energy efficiency were 866 g (H-2) h(-1) and 577 g (H-2) kWh(-1) of microwave energy absorbed by the plasma, respectively. These parameters are better than our previous results when nitrogen was used as a swirl gas and much better than those typical for other plasma methods of hydrogen production (electron beam, gliding arc, plasmatron).