Plasma reforming of methane in a tunable ferroelectric packed-bed dielectric barrier discharge reactor

Journal of Power Sources

Volumn 296, Issue , 2015, Pages 268-275

  Montoro Damas, A M ^a   Brey, J Javier ^b   Rodríguez, Miguel A ^c   González Elipe, Agustín R ^a   Cotrino, José ^a,d  

^a INSTITUTO DE CIENCIA DE MATERIALES DE SEVILLA   (Spain)

^b Abengoa Hidrógeno SA Campus Palmas Altas ^*  (Spain)

^c INSTITUTO DE CERÁMICA Y VIDRIO   (Spain)

^d UNIVERSITY OF SEVILLE   (Spain)

Author keywords

Efficiency; Fuel reforming; Hydrogen; Non thermal plasma

Indexed keywords

DIELECTRIC DEVICES; DIELECTRIC MATERIALS; EFFICIENCY; ELECTRIC REACTORS; ELECTRODES; FERROELECTRIC MATERIALS; FERROELECTRICITY; FLOW CONTROL; HYDROGEN; METHANE; PACKED BEDS; PELLETIZING; REFORMING REACTIONS;

DIELECTRIC BARRIER DISCHARGE REACTORS; ENERGETIC EFFICIENCY; FERROELECTRIC PELLETS; FUEL REFORMING; GEOMETRICAL CONFIGURATIONS; NONTHERMAL PLASMA; PROCESS EFFICIENCY; TUNABLE FERROELECTRICS;

ELECTRIC DISCHARGES;

EID: 84938077637     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2015.07.038     Document Type: Article

References (35)

1. V.R. Choudhary, A.M. Rajput, and B. Prabhakar Energy efficient methane-to-syngas conversion with low H2/CO ratio by simultaneous catalytic reactions of methane with carbon dioxide and oxygen Catal. Lett. 32 1995 391 396
2. J.M. Cormier, and I. Rusu Syngas production via methane steam reforming with oxygen: plasma reactors versus chemical reactors J. Phys. D. Appl. Phys. 34 2001 2798
3. H.F. Abbas, and W.M.A.W. Daud Hydrogen production by methane decomposition: a review Int. J. Hydrog. Energy 35 2010 1160 1190
4. M. Kraus, B. Eliasson, U. Kogelschatz, and A. Wokaun CO2 reforming of methane by the combination of dielectric-barrier discharges and catalysis Phys. Chem. Chem. Phys. 3 2001 294 300
5. U. Kogelschatz Dielectric-barrier discharges: their history, discharge physics, and industrial applications Plasma Chem. Plasma Process 23 2003 1 46
6. B. Sarmiento, J.J. Brey, I.G. Viera, A.R. González-Elipe, J. Cotrino, and V.J. Rico Hydrogen production by reforming of hydrocarbons and alcohols in a dielectric barrier discharge J. Power Sources 169 2007 140 143
7. V.J. Rico, J.L. Hueso, J. Cotrino, V. Gallardo, B. Sarmiento, J.J. Brey, and A.R. González-Elipe Hybrid catalytic-DBD plasma reactor for the production of hydrogen and preferential CO oxidation (CO-PROX) at reduced temperatures Chem. Commun. 41 2009 6192 6194
8. A. Gómez-Ramírez, V.J. Rico, J. Cotrino, A.R. González-Elipe, and R.M. Lambert low temperature production of formaldehyde from carbon dioxide and ethane by plasma-assisted catalysis in a ferroelectrically moderated dielectric barrier discharge reactor ACS Catal. 4 2014 402 408
9. W. Siemens Ueber die elektrostatische Induction und die Verzögerung des Stroms in Flaschendrähten Poggend. Ann. Phys. Chem. 102 1857 66 122
10. U. Kogelschatz, B. Eliasson, and W. Egli From ozone generators to flat television screens: history and future potential of dielectric-barrier discharges Pure Appl. Chem. 71 1999 1819 1828
11. H.L. Chen, H.M. Lee, S.H. Chen, Y. Chao, and M.B. Chang Review of plasma catalysis on hydrocarbon reforming for hydrogen production - interaction, integration, and prospects Appl. Catal. B-Environ 85 2008 1 9
12. G. Petitpas, J.D. Rollier, A. Darmon, J. Gonzalez-Aguilar, R. Metkemeijer, and L. Fulcheri A comparative study of non-thermal plasma assisted reforming technologies Int. J. Hydrog. Energy 32 2007 2848 2867
13. Th Hammer, Th Kappes, and M. Baldauf Plasma catalytic hybrid processes: gas discharge initiation and plasma activation of catalytic processes Catal. Today 89 2004 5 14
14. S. Kado, K. Urasaki, Y. Sekine, K. Fujimoto, T. Nozaki, and K. Okazaki Reaction mechanism of methane activation using non-equilibrium pulsed discharge at room temperature Fuel 82 2003 2291 2297
15. A. Ogata, K. Mizuno, S. Kushiyama, and T. Yamamoto Methane decomposition in a barium titanate packed-bed nonthermal plasma reactor Plasma Chem. Plasma Process 18 1998 363 373
16. H.L. Chen, H.M. Lee, S.H. Chen, and M.B. Chang Review of packed-bed plasma reactor for ozone generation and air pollution control Ind. Eng. Chem. Res. 47 2008 2122 2130
17. T. Kolb, T. Kroker, J.H. Voigt, and K.H. Gericke Wet conversion of methane and carbon dioxide in a DBD reactor Plasma Chem. Plasma Process 32 2012 1139 1155
18. D.W. Larkin, L.L. Lobban, and R.G. Mallinson The direct partial oxidation of methane to organic oxygenates using a dielectric barrier discharge reactor as a catalytic reactor analog Catal. Today 71 2001 199 210
19. S.A. Nair, T. Nozaki, and K. Okazaki Methane oxidative conversion pathways in a dielectric barrier discharge reactor-investigation of gas phase mechanism Chem. Eng. J. 132 2007 85 95
20. A.M. Ghorbanzadeh, R. Lotfalipour, and S. Rezaei Carbon dioxide reforming of methane at near room temperature in low energy pulsed plasma Int. J. Hydrog. Energy 34 2009 293 298
21. F. Ouni, A. Khacef, and J.M. Cormier Syngas production from propane using atmospheric non-thermal plasma Plasma Chem. Plasma Process 29 2009 119 130
22. C. Song Overview of hydrogen production options for developing hydrogen energy, fuel processing for fuel cells and mitigation of CO2 emissions J. Fuel Chem. Technol. (Ranliao Huaxue Xuebao) 33 2005 641 649
23. A.M. Lopez, H. Piquet, D. Patino, R. Diez, and X. Bonnin Parameters identification and gas behaviour characterization of DBD systems IEEE Trans. Plasma Sci. 1 2013 2335 2342
24. D.R. Lide CRC Handbook of Chemistry and Physics 84th ed. 2003-2004 CRC Press United States
25. L.M. Zhou, B. Xue, U. Kogelschatz, and B. Eliasson Nonequilibrium plasma reforming of greenhouse gases to synthesis gas Energy Fuels 12 1998 1191 1199
26. V.J. Rico, J.L. Hueso, J. Cotrino, and A.R. González-Elipe Evaluation of different dielectric barrier discharge plasma configurations as an alternative technology for green C1 chemistry in the carbon dioxide reforming of methane and the direct decomposition of methanol J. Phys. Chem. A 114 2010 4009 4016
27. H.J. Gallon, X. Tu, and J.C. Whitehead Effects of reactor packing materials on H2 production by CO2 reforming of CH4 in a dielectric barrier discharge Plasma Process. Polym. 9 2012 90 97
28. H.J. Alves, C.B. Junior, R.R. Niklevicz, E.P. Frigo, M.S. Frigo, and C.H. Coimbra-Araujo Overview of hydrogen production technologies from biogas and the applications in fuel cells Int. J. Hydrog. Energy 38 2013 5215 5225
29. P.K. Chu, and X. Lu Low Temperature Plasma Technology: Methods and Applications 2013 CRC Press, Taylor and Francis Group New York
30. T. Nozaki, and K. Okazaki Non-thermal plasma catalysis of methane: principles, energy efficiency, and applications Catal. Today 211 2013 29 38
31. R. Chaubey, S. Sahu, O.O. James, and S. Maity A review on development of industrial processes and emerging techniques for production of hydrogen from renewable and sustainable sources Renew. Sustain. Energy Rev. 23 2013 443 462
32. E. Tatarova, N. Bundaleska, J.Ph Sarrette, and C.M. Ferreira Plasmas for environmental issues: from hydrogen production to 2D materials assembly Plasma Sources Sci. Technol. 23 2014 063002
33. M. Amjad, Z. Salam, and K. Ishaque A Model parameter extraction method for dielectric barrier discharge ozone chamber using differential evolution Meas. Sci. Rev. 14 2014 78 86
34. M.Y. Naz, A. Ghaffar, N.U. Rehman, S. Shukrullah, and M.A. Ali Optical characterization of 50 Hz atmospheric pressure single dielectric barrier discharge plasma PIER M. 24 2012 193 207
35. J. Pan, Z.Y. Tan, X.L. Wang, C. Sha, L.L. Nie, and X.X. Chen Effects of pulse parameters on the atmospheric-pressure dielectric barrier discharges driven by the high-voltage pulses in Ar and N2 Plasma Sources Sci. Technol. 23 2014 065019