Hybrid Plasma-Catalytic Reforming of Ethanol into Synthesis Gas: Experiment and Modeling | Zendy

Oleg Nedybaliuk | Zendy; Igor Fedirchyk | Zendy; Valeriy Chernyak | Zendy; Tatyana Tereshchenko | Zendy; O.M. Tsymbaliuk | Zendy; Valentina Demchina | Zendy; Mykola V. Bogaenko | Zendy; Volodymyr S. Popkov | Zendy

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Hybrid Plasma-Catalytic Reforming of Ethanol into Synthesis Gas: Experiment and Modeling

Author(s) -

Oleg Nedybaliuk,

Igor Fedirchyk,

Valeriy Chernyak,

Tatyana Tereshchenko,

O.M. Tsymbaliuk,

Valentina Demchina,

Mykola V. Bogaenko,

Volodymyr S. Popkov

Publication year - 2019

Publication title -

plasma physics and technology

Language(s) - English

Resource type - Journals

eISSN - 2336-2634

pISSN - 2336-2626

DOI - 10.14311/ppt.2019.3.270

Subject(s) - kinetics , plasma , steam reforming , catalysis , ethanol , catalytic reforming , carbon dioxide reforming , gas composition , methane reformer , syngas , chemical engineering , chemistry , materials science , process engineering , thermodynamics , hydrogen production , organic chemistry , engineering , physics , quantum mechanics

Understanding of the plasma-assisted reforming of hydrocarbons requires a combined application of the experimental studies of reforming systems and the kinetics modeling of reforming processes. Experiments were conducted on a system with a wide-aperture rotating gliding discharge with atmospheric air used as a plasma gas. Reforming parameters essential for the kinetics modelling of the reforming process were obtained. The influence of water addition method on the product composition of plasma-catalytic ethanol reforming was investigated.

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