4.5 Article

Production of Hydrogen-Rich Synthesis Gas by Pulsed Atmospheric Plasma Submerged in Mixture of Water with Ethanol

PLASMA CHEMISTRY AND PLASMA PROCESSING (2017)

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Journal

PLASMA CHEMISTRY AND PLASMA PROCESSING
Volume 37, Issue 1, Pages 115-123

Publisher

SPRINGER
DOI: 10.1007/s11090-016-9766-6

Keywords

Plasma discharge in liquid; Hydrogen production; Synthesis gas; Ethanol reforming; Pulsed plasma

Categories

Engineering, Chemical Physics, Applied Physics, Fluids & Plasmas

Funding

  1. J. Gust. Richert Foundation in Sweden
  2. European Institute of Innovation and Technology under the KIC InnoEnergy SynCon project

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Hydrogen-rich synthesis gas was produced by pulsed dc plasma submerged into ethanol-water mixtures using an original system with a coaxial geometry. The ignition of the discharge is immediately followed by production of hydrogen and after a short time necessary for filling the outlet tubing a flame can be ignited. No auxiliary gas was used for the reforming process. The synthesis gas containing up to 60% of hydrogen was formed, at the outflow rate of 250 sccm at the average power as low as 10 W. The hydrogen production efficiency corresponds to 12 kWh/kg H-2.

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