Methane conversion to H 2 and carbon nanofibers over supported Ni catalysts: A sustainable process through utilization of deactivated catalysts

Methane conversion to H 2 and carbon nanofibers over supported Ni catalysts: A sustainable process through utilization of deactivated catalysts

Abstract The renewable resource such as rice husk has been utilized to synthesize Hβ zeolite as a support for Ni catalysts for the production of clean hydrogen and carbon nanofibers (CNFs) by CH 4 cracking at 550°C without any CO or CO 2 formation. Hydrogen production rates and area of surface Ni ar...

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Bibliographic Details
Published in:Environmental progress & sustainable energy Vol. 43; no. 1
Main Authors: Manda, Kalpana, Kandula, Manasa, Aytam, Padmasri Hari, Basak, Pratyay, Sarma, Akella V. S., Akula, Venugopal
Format: Journal Article
Language:English
Published: 01-01-2024
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Summary:Abstract The renewable resource such as rice husk has been utilized to synthesize Hβ zeolite as a support for Ni catalysts for the production of clean hydrogen and carbon nanofibers (CNFs) by CH 4 cracking at 550°C without any CO or CO 2 formation. Hydrogen production rates and area of surface Ni are in good correlation, implying the optimum Ni loading of 25 wt % that demonstrated better hydrogen yields and CNFs. The electrochemical properties of the deactivated catalysts indicated that they were near semiconducting in nature, showing future prospects as carbon electrode materials. The physicochemical characteristics of the fresh, reduced, and used catalysts were rationalized by BET surface area, p‐X‐ray diffraction, temperature programmed reduction using H 2 , SEM, TEM, H 2 ‐pulse chemisorption, and Raman spectroscopic analyses in conjunction with hydrogen rates.
ISSN:1944-7442
1944-7450
DOI:10.1002/ep.14222