Your search keyword '"Spinicchia, N."' showing total 2 results

1. An Experimental Study of Plasma Cracking of Methane Using DBDs Aimed at Hydrogen Production

Author

Barni, R, Benocci, R, Spinicchia, N, Roman, H, Riccardi, C, Barni, Ruggero, Benocci, Roberto, Spinicchia, Nicolò, Roman, H. Eduardo, Riccardi, Claudia, Barni, R, Benocci, R, Spinicchia, N, Roman, H, Riccardi, C, Barni, Ruggero, Benocci, Roberto, Spinicchia, Nicolò, Roman, H. Eduardo, and Riccardi, Claudia

Abstract

We report the results of an experimental campaign about the production of hydrogen from methane cracking using a non-thermal plasma. Experiments have been performed using a nanosecond pulse high-voltage generator in a cylindrical dielectric barrier electrode setup. Our experiments show that high methane conversion could be achieved by pulsed electrical discharges in DBD configuration. Conversion could be as high as 60%, with a hydrogen yield of about 25%. The energy costs lie in the range 30–40 eV for molecule. Another set of experiments using a traditional sinusoidal dielectric barrier discharge reactor suggests that argon dilution could improve the performances of plasma methane reforming. A similar suggestion could be inferred by analyzing the results of numerical simulations of the gas-phase chemical kinetics evolution under pulsed electrical discharge conditions.

Published

2019

2. An Experimental Study of Plasma Cracking of Methane Using DBDs Aimed at Hydrogen Production

Author

Roberto Benocci, Cristina Riccardi, H. Eduardo Roman, Nicolò Spinicchia, Ruggero Barni, Barni, R, Benocci, R, Spinicchia, N, Roman, H, and Riccardi, C

Subjects

Materials science, Hydrogen, General Chemical Engineering, Analytical chemistry, Methane cracking, chemistry.chemical_element, Dielectric barrier discharge, Condensed Matter Physic, 01 natural sciences, Methane, 010305 fluids & plasmas, chemistry.chemical_compound, 0103 physical sciences, Chemical Engineering (all), FIS/03 - FISICA DELLA MATERIA, Hydrogen production, 010302 applied physics, Argon, Methane reformer, Chemistry (all), Hydrogen reformer, Atmospheric pressure plasma, General Chemistry, Plasma, Condensed Matter Physics, Surfaces, Coatings and Films, FIS/01 - FISICA SPERIMENTALE, chemistry, Plasma discharge, Electric discharge

Abstract

We report the results of an experimental campaign about the production of hydrogen from methane cracking using a non-thermal plasma. Experiments have been performed using a nanosecond pulse high-voltage generator in a cylindrical dielectric barrier electrode setup. Our experiments show that high methane conversion could be achieved by pulsed electrical discharges in DBD configuration. Conversion could be as high as 60%, with a hydrogen yield of about 25%. The energy costs lie in the range 30–40 eV for molecule. Another set of experiments using a traditional sinusoidal dielectric barrier discharge reactor suggests that argon dilution could improve the performances of plasma methane reforming. A similar suggestion could be inferred by analyzing the results of numerical simulations of the gas-phase chemical kinetics evolution under pulsed electrical discharge conditions.

Published

2019