Novel catalytic reactor for oxidative reforming of methanol

“…Assuming prevaporized reactants, Eq. (4) is thermally neutral ( H • = 0 kJmol −1 ) when the oxygen-to-methanol ratio is equal to 0.1 [5]. Experimental studies on the CSRM process are limited compared with those concerning SRM and focus mainly on copper-based catalysts supported on ZnO, ZnO/Al 2 O 3 , or CeO 2 and group 8-10 metal-based catalysts supported on ZnO or ZnO/CeO 2 [6,7].…”

Combined steam reforming of methanol over Cu–Mn spinel oxide catalysts

“…Assuming prevaporized reactants, Eq. (4) is thermally neutral ( H • = 0 kJmol −1 ) when the oxygen-to-methanol ratio is equal to 0.1 [5]. Experimental studies on the CSRM process are limited compared with those concerning SRM and focus mainly on copper-based catalysts supported on ZnO, ZnO/Al 2 O 3 , or CeO 2 and group 8-10 metal-based catalysts supported on ZnO or ZnO/CeO 2 [6,7].…”

Combined steam reforming of methanol over Cu–Mn spinel oxide catalysts

“…By this procedure, it is possible to obtain intimately interacting Pd -Zn species that easily generates the 1:1 Pd/Zn alloy when reduced at 500 ° C. Chen et al 117 reported the use of a wall -coated, highly active PdZn/CuZnAl mixed catalyst for the OSRM in a microchannel reactor. High H 2 yields in the OSRM reaction was also observed in a microchannel reactor by Lyubovsky and Roychoudhury et al 208 Suwa et al 202 reported the performance of various supported Pd/ZnObased catalysts. Although much more stable than Cu -based catalysts, deactivation of PdZn catalysts was reported.…”

Catalytic Steam Reforming Technology for the Production of Hydrogen and Syngas

“…Autothermal reforming of alcohols into hydrogen has been demonstrated by many researchers [4][5][6][7]. In our previous work, complete conversion of methanol in adiabatic ATR reactor was demonstrated with near equilibrium product composition and about 50% H 2 and less than 2% CO in the reformate stream [6].…”

“…Details of system integration and description of the assumptions used in modeling of individual components for the described system was provided in [9]. The difference between this and our previous work is based on the fact that methanol can be converted to CO and H 2 at much lower temperatures than methane, which allows combining reforming and water-gas-shift steps within a single reactor [6]. Reformate temperature for such an ATR reactor can be compatible with a Pd-based membrane, such that no stream conditioning between these process elements would be required.…”

“…Alcohols can be converted into hydrogen through steam reforming [1][2][3] or autothermal reforming [4][5][6][7] processes. Selection between these two approaches depends on the details of the reformer integration into the fuel processing system and an assessment of overall system efficiency, size and complexity.…”

A reforming system for co-generation of hydrogen and mechanical work from methanol