Description: Hydrogen-rich syngas production from bi-reforming of greenhouse gases over zirconia modified Ni/MgO catalyst

Hydrogen-rich syngas production from bi-reforming of greenhouse gases over zirconia modified Ni/MgO catalyst

Amorphous carbon; Carbon dioxide; Catalyst supports; Greenhouse gases; Hydrogenation; Magnesia; Nickel compounds; Physicochemical properties; Zirconia; Bi-reforming of methane; CH 4; Co-precipitation; Greenhouses gas; Methane reaction; Ni/MgO catalyst; Performance; Reforming of methane; Syngas produ...

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Bibliographic Details
Main Authors:	Farooqi A.S., Yusuf M., Zabidi N.A.M., Saidur R., Shahid M.U., Ayodele B.V., Abdullah B.
Other Authors:	57192915161
Format:	Article
Published:	John Wiley and Sons Ltd 2023
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Summary:	Amorphous carbon; Carbon dioxide; Catalyst supports; Greenhouse gases; Hydrogenation; Magnesia; Nickel compounds; Physicochemical properties; Zirconia; Bi-reforming of methane; CH 4; Co-precipitation; Greenhouses gas; Methane reaction; Ni/MgO catalyst; Performance; Reforming of methane; Syngas production; ]+ catalyst; Coprecipitation

Hydrogen-rich syngas production from bi-reforming of greenhouse gases over zirconia modified Ni/MgO catalyst

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