Synthesis strategies of ceria–zirconia doped Ni/SBA-15 catalysts for methane dry reforming

“…The fuels cells are prime candidates for converting chemical energy from hydrogen combustion into other forms of energy for used in automobiles, household applications, and large-scale business installations. The various literature already documented in this paper, and other recent studies [183][184][185][186][187][188][189][190][191] have shown that handling the deposition of carbonaceous materials that lowers catalyst activity toward hydrogen production is Figure 5. The annual global production hits over 50 million metric tonnes in 2013, with at least 11 million metric tonnes in the USA, from natural gas and reforming reactions ( Figure 6).…”

A review on coke management during dry reforming of methane

“…The fuels cells are prime candidates for converting chemical energy from hydrogen combustion into other forms of energy for used in automobiles, household applications, and large-scale business installations. The various literature already documented in this paper, and other recent studies [183][184][185][186][187][188][189][190][191] have shown that handling the deposition of carbonaceous materials that lowers catalyst activity toward hydrogen production is Figure 5. The annual global production hits over 50 million metric tonnes in 2013, with at least 11 million metric tonnes in the USA, from natural gas and reforming reactions ( Figure 6).…”

A review on coke management during dry reforming of methane

“…Although steam reforming is still the major way, dry reforming is more promising because of the concern towards greenhouse effect. On the other hand, syngas (mixture of H 2 and CO) produced in dry reforming reaction can be applied in other industry process, such as Fischer-Tropsch and methanol synthesis [1][2][3][4][5][6][7] . Among all kinds of dry reforming reactions, CO 2 (dry) reforming of methane (DRM) reaction is extensively studied recently [8][9][10][11][12][13][14][15][16][17][18].…”

Ni/SiO2 catalyst prepared via Ni-aliphatic amine complexation for dry reforming of methane: Effect of carbon chain number and amine concentration

“…For SRM and DRM catalysts, it was recently found that confinement of the nickel active phase within structured pores of oxide supports, especially mesoporous silica [40][41][42] or alumina [43][44][45][46], helps minimizing Ni 0 sintering during reaction, thus preserving reactivity with time on stream.…”

Ordered mesoporous “one-pot” synthesized Ni-Mg(Ca)-Al2O3 as effective and remarkably stable catalysts for combined steam and dry reforming of methane (CSDRM)