Production of hydrogen via methane reforming using atmospheric pressure microwave plasma M Jasiński, M Dors, J Mizeraczyk Journal of Power Sources 181 (1), 41-45, 2008 | 151 | 2008 |
Atmospheric pressure microwave plasma source for hydrogen production M Jasiński, D Czylkowski, B Hrycak, M Dors, J Mizeraczyk International Journal of hydrogen energy 38 (26), 11473-11483, 2013 | 110 | 2013 |
Measurements of the velocity field of the flue gas flow in an electrostatic precipitator model using PIV method J Mizeraczyk, M Kocik, J Dekowski, M Dors, J Podliński, T Ohkubo, ... Journal of Electrostatics 51, 272-277, 2001 | 108 | 2001 |
Microwave plasma-based method of hydrogen production via combined steam reforming of methane D Czylkowski, B Hrycak, M Jasiński, M Dors, J Mizeraczyk Energy 113, 653-661, 2016 | 96 | 2016 |
Chemical kinetics of methane pyrolysis in microwave plasma at atmospheric pressure M Dors, H Nowakowska, M Jasiński, J Mizeraczyk Plasma Chemistry and Plasma Processing 34, 313-326, 2014 | 83 | 2014 |
Removal of NOx by DC and pulsed corona discharges in a wet electrostatic precipitator model M Dors, J Mizeraczyk, T Czech, M Rea Journal of Electrostatics 45 (1), 25-36, 1998 | 67 | 1998 |
NOx removal from a flue gas in a corona discharge-catalyst hybrid system M Dors, J Mizeraczyk Catalysis Today 89 (1-2), 127-133, 2004 | 63 | 2004 |
Hydrogen production via methane reforming using various microwave plasma sources M Jasiński, M Dors, H Nowakowska, J Mizeraczyk Chem. Listy 102 (16), S1332-S1337, 2008 | 61 | 2008 |
Hydrogen production from gaseous fuels by plasmas—a review J Mizeraczyk, K Urashima, M Jasinski, M Dors Int. J. Plasma Environ. Sci. Technol 8 (2), 89-97, 2014 | 60 | 2014 |
Application of atmospheric pressure microwave plasma source for hydrogen production from ethanol B Hrycak, D Czylkowski, R Miotk, M Dors, M Jasinski, J Mizeraczyk International journal of hydrogen energy 39 (26), 14184-14190, 2014 | 57 | 2014 |
Application of atmospheric pressure microwave plasma source for production of hydrogen via methane reforming M Jasiński, M Dors, J Mizeraczyk The European Physical Journal D 54, 179-183, 2009 | 55 | 2009 |
Liquid fuel reforming using microwave plasma at atmospheric pressure R Miotk, B Hrycak, D Czylkowski, M Dors, M Jasinski, J Mizeraczyk Plasma Sources Science and Technology 25 (3), 035022, 2016 | 53 | 2016 |
Hydrogen production by conversion of ethanol using atmospheric pressure microwave plasmas D Czylkowski, B Hrycak, R Miotk, M Jasiński, M Dors, J Mizeraczyk international journal of hydrogen energy 40 (40), 14039-14044, 2015 | 53 | 2015 |
Studies of atmospheric-pressure microwave plasmas used for gas processing J Mizeraczyk, M Jasiński, H Nowakowska, M Dors Nukleonika 57, 241-247, 2012 | 52 | 2012 |
Production of hydrogen via conversion of hydrocarbons using a microwave plasma M Jasiński, M Dors, H Nowakowska, GV Nichipor, J Mizeraczyk Journal of Physics D: Applied Physics 44 (19), 194002, 2011 | 50 | 2011 |
Effect of reaction temperature on NO/sub x/removal and formation of ammonium nitrate in nonthermal plasma Process combined with selective catalytic reduction YS Mok, M Dors, J Mizerazcyk IEEE transactions on plasma science 32 (2), 799-807, 2004 | 48 | 2004 |
Destruction of Freon HFC-134a using a nozzleless microwave plasma source M Jasiński, M Dors, J Mizeraczyk Plasma Chemistry and Plasma Processing 29, 363-372, 2009 | 47 | 2009 |
Hydrogen production from ethanol in nitrogen microwave plasma at atmospheric pressure B Hrycak, D Czylkowski, R Miotk, M Dors, M Jasinski, J Mizeraczyk Open Chemistry 13 (1), 000010151520150039, 2015 | 41 | 2015 |
Hydrogen production via synthetic biogas reforming in atmospheric-pressure microwave (915 MHz) plasma at high gas-flow output B Hrycak, D Czylkowski, M Jasiński, M Dors, J Mizeraczyk Plasma Chemistry and Plasma Processing 39, 695-711, 2019 | 33 | 2019 |
Improvement in selective catalytic reduction of nitrogen oxides by using dielectric barrier discharge YS Mok, HJ Lee, M Dors, J Mizeraczyk Chemical Engineering Journal 110 (1-3), 79-85, 2005 | 31 | 2005 |