Abstract
The search for a known chemical process to utilize the huge quantities of CO2 emissions generated mainly by the energy sector via the oxidation of carbon in fuels, remains an unending task. CO2 reforming of methane is seen as a suitable alternative to the generally proposed carbon capture and storage. Furthermore, it has been suggested as a potential chemical process to handle the excess CO2 emissions without much modification to the current infrastructure.
Highlights
The search for a known chemical process to utilize the huge quantities of CO2 emissions generated mainly by the energy sector via the oxidation of carbon in fuels, remains an unending task
To the coke- and sintering-resistance performance exhibited by the NiMo/magnesium oxide (MgO) catalyst
Reduction of CO2 with Mg chips to synthesize the nearsingle-crystalline MgO instead of a defective MgO, played a major role in the superior catalytic activity and stability exhibited by the Ni-Mo/MgO catalyst
Summary
The search for a known chemical process to utilize the huge quantities of CO2 emissions generated mainly by the energy sector via the oxidation of carbon in fuels, remains an unending task.
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