A review on catalyst development for conventional thermal dry reforming of methane at low temperature

Abstract: Carbon dioxide (CO 2 ) utilization and conversion, as one of the main parts of carbon capture, utilization, and storage (CCUS), is not only considered an important way to mitigate global warming but also an attractive industrial route to produce valuable fuels and chemical feedstocks. Catalytic dry reforming of methane (DRM) is a promising technology for carbon dioxide utilization and conversion as it can produce syngas, carbon monoxide (CO), and hydrogen (H 2 ) for widespread industrial production processes. … Show more

“…79,80 The supports used in most research are Al 2 O 3 , SiO 2 , ZrO 2 , CeO 2 , zeolites, and metal–organic framework (MOF) derived materials. 81 Some novel support materials have been developed in recent years, such as single crystalline metal oxides and crystalline oxides. Song et al 82 designed a Mo-doped Ni DRM catalyst on a single-crystalline MgO support, which showed excellent resistance to sintering and coking with over a reaction time of >850 h. Subsequently, Xiao and Xie 83 established a low-temperature DRM catalyst that operated effectively at 450 °C by anchoring single-crystalline Ni particles on porous single-crystalline CeO 2 monoliths, which led to suitable MSI that improved both catalytic activity and durability.…”

Integrated CO₂ capture and utilization: a review of the synergistic effects of dual function materials

“…79,80 The supports used in most research are Al 2 O 3 , SiO 2 , ZrO 2 , CeO 2 , zeolites, and metal–organic framework (MOF) derived materials. 81 Some novel support materials have been developed in recent years, such as single crystalline metal oxides and crystalline oxides. Song et al 82 designed a Mo-doped Ni DRM catalyst on a single-crystalline MgO support, which showed excellent resistance to sintering and coking with over a reaction time of >850 h. Subsequently, Xiao and Xie 83 established a low-temperature DRM catalyst that operated effectively at 450 °C by anchoring single-crystalline Ni particles on porous single-crystalline CeO 2 monoliths, which led to suitable MSI that improved both catalytic activity and durability.…”

Integrated CO₂ capture and utilization: a review of the synergistic effects of dual function materials

“…It is well-known that the high oxygen transport of ZrO 2 provides protection against coke formation . However, it has also been shown that the relatively weak metal–support interactions (MSIs) of Ni with ZrO 2 lead to deactivation by sintering. , To mitigate this effect, Tathod et al deposited a thin layer of MgAlO x MO nanosheets, derived from layer double hydroxide (LDH) NPs, as an intermediate strongly interacting oxide support. This unique hierarchical configuration was shown to provide superior performance and stability in DRM.…”

Application of ZrO₂-Based Hierarchical Nanofibers as a Promoter in Ni Catalyzed Methane Dry Re-Forming

“…De et al [9] present experimental results and methodology for recovering biomass-derived 2-furoic acid from a dilute aqueous stream by reactive extraction using trioctylamine. Zhou and Mahinpey [10] provide a state-ofart review on the topic of catalyst development for conventional thermal dry reforming of methane at low temperatures, with applications in CO 2 utilization and conversion. Tripathi et al [11] demonstrate comparative efficacy of the synthesis of methanol and dimethyl ether using CO 2 -rich syngas obtained from coal and biomass gasification.…”

Preface to the special issue section: 74th Indian Chemical Engineering Congress (CHEMCON‐2021)