Tri-reforming of CH₄ over a Thermally Stable and Carbon-Resistant Nanonickel Metal Catalyst Dispersed on Mesoporous-Zirconia

Abstract: A novel nanonickel metal catalyst dispersed on mesoporous-zirconia is developed for the controlled production of the synthesis gas with an H 2 /CO molar ratio of 1.5−2 via the trireforming of methane (TRM). The catalysts were tested in a fixedbed reactor at 600−850 °C and 1 atm. At the optimum feed (CH 4 / CO 2 /O 2 /H 2 O/N 2 ) ratio of 1:0.5:0.1:0.0125:1, the maximum CO 2 and CH 4 conversion was ∼28 and ∼86%, respectively, over the 5 wt % Ni/ZrO 2 . At this condition, the syngas with an H 2 /CO ratio of ∼1.5… Show more

“…The BET surface area for all the catalysts dropped significantly (16.1-5.7 m 2 /g) because of the deformation of the MOF structure after calcination at 700 o C (Tu et al 2023). The highest surface area of 16.1 m 2 /g was obtained for the NZ-1000 catalyst, and this value was comparable with the values reported for the Ni/ZrO2 catalyst in the previous literature (Kumar et al 2019a;Pandey et al 2023). The PSD curve (Fig.…”

“…TEM images of Zr-MOF, reduced Ni/ZrO2 derived MOF, and spent catalysts were taken by the JEOL LEM 2100 microscope from Japan, operating at 200 kV accelerated voltage. Prior to the TEM analysis, the sample was prepared following the method used in our earlier research work (Pandey et al 2023).…”

“…Initially, the TRM activity of all the catalysts synthesized were screened at the optimum reaction condition reported in our previous study (Pandey et al 2023). The result obtained is plotted in Fig.…”

Tri-reforming of methane over Ni/ZrO2 catalyst derived from Zr-MOF for the production of synthesis gas

“…The BET surface area for all the catalysts dropped significantly (16.1-5.7 m 2 /g) because of the deformation of the MOF structure after calcination at 700 o C (Tu et al 2023). The highest surface area of 16.1 m 2 /g was obtained for the NZ-1000 catalyst, and this value was comparable with the values reported for the Ni/ZrO2 catalyst in the previous literature (Kumar et al 2019a;Pandey et al 2023). The PSD curve (Fig.…”

“…TEM images of Zr-MOF, reduced Ni/ZrO2 derived MOF, and spent catalysts were taken by the JEOL LEM 2100 microscope from Japan, operating at 200 kV accelerated voltage. Prior to the TEM analysis, the sample was prepared following the method used in our earlier research work (Pandey et al 2023).…”

“…Initially, the TRM activity of all the catalysts synthesized were screened at the optimum reaction condition reported in our previous study (Pandey et al 2023). The result obtained is plotted in Fig.…”

Tri-reforming of methane over Ni/ZrO2 catalyst derived from Zr-MOF for the production of synthesis gas

Tri-reforming of methane over Ni/ZrO2 catalyst derived from Zr-MOF for the production of synthesis gas

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