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Resonance-driven microwave heating for improved methane conversion to hydrogen

Jia Wang, Mengyuan Wen, Xinru La, Jurong Ren, Jianchun Jiang and Daniel C.W. Tsang

Applied Energy, 2024, vol. 375, issue C, No S0306261924014831

Abstract: Efficient hydrogen production through methane pyrolysis is hindered by high temperature required and frequent catalyst deactivation due to carbon deposition. This study proposes a novel use of variable-frequency microwave heating to enhance the efficiency and stability of methane pyrolysis by leveraging the resonance effects between microwave frequencies and dielectric properties of activated charcoal (AC). A solid-state variable-frequency microwave reactor was employed to modulate microwave frequencies to match the dielectric properties of AC, with a peak tanδ of 0.19 at 4600 MHz. Experimental results showed that at a resonance frequency of 4650 MHz and a microwave power of 100 W, the reaction temperature of AC reached 960 °C within 2 min, achieving a 100% methane conversion rate. However, carbon deposition reduced the conversion rate to 35.1% after 150 min. By cyclically adjusting the microwave frequencies between 4650 MHz and 4640 MHz, the catalyst was successfully reactivated, restoring the conversion rate to 100%. This frequency modulation method enabled continuous methane pyrolysis for 1300 min, highlighting the potential of variable-frequency microwave heating as a novel and efficient approach for a sustainable production of green hydrogen.

Keywords: Methane pyrolysis; Green hydrogen; Pyrogenic carbon; Microwave-induced heating; Microwave frequency; Sustainable biorefinery (search for similar items in EconPapers)
Date: 2024
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DOI: 10.1016/j.apenergy.2024.124100

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