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Enhanced high-purity syngas production and sustainable chemicals synthesis via chemical looping dry reforming of methane

Tianlong Yang, Xin Yu, Jinrui Zhang, Taixiu Liu, Mingkai Liu, Ruqi Zhang, Ying Pan, Hongguang Jin

2025International Journal of Hydrogen Energy9 citationsDOIOpen Access PDF

Abstract

Dry reforming of methane (DRM) utilizes two major greenhouse gases , CO 2 and CH 4 , to produce syngas (CO and H 2 ), which is an important chemical intermediate resource for high-value chemicals synthesis . However, conventional DRM faces challenges such as catalyst deactivation , low product selectivity, and an unsuitable syngas ratio for downstream chemicals synthesis. To address these limitations, we propose a chemical looping dry reforming of methane (CLDRM) method, which achieves high methane conversion, superior syngas selectivity, and high-purity syngas for chemicals synthesis. In this study, 100 cycles of experiments were carried out using the LaFe 0.8 Al 0.2 O 3 oxygen carrier . The results showed 88.3 % CH 4 conversion, over 99 % CO selectivity, and a syngas yield of 8.1 mmol/g with an H 2 /CO ratio of 2 during the methane partial oxidation (POx) step. In the CO 2 splitting step, the system achieved 81.3 % CO 2 conversion with a CO yield of 2.6 mmol/g. The energy upgrade factor during the cycle reached 1.98. Furthermore, the performance of the proposed CLDRM-based chemicals production system was analyzed, taking acetic acid synthesis as a typical case. The new system achieved energy and exergy efficiencies of 62.9 % and 65.4 %, respectively, representing improvements of 11.5 % and 12.2 % compared to the conventional DRM system. Additionally, the new system reduced methane consumption by 8.84 % while increasing the CO 2 fixation rate by 50.54 %. In summary, the proposed CLDRM process offers a promising pathway for CO 2 reduction and cleaner utilization of CH 4 for high-value chemicals production, supporting the transition to a more sustainable and low-carbon future.

Topics & Concepts

SyngasChemical looping combustionCarbon dioxide reformingMethaneSyngas to gasoline plusEnvironmental scienceHydrogen productionMethane reformerProduction (economics)ChemistryWaste managementSteam reformingHydrogenFluidized bedEngineeringOrganic chemistryMacroeconomicsEconomicsChemical Looping and Thermochemical ProcessesCatalysts for Methane ReformingIron and Steelmaking Processes