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Co-feeding biomass and municipal solid waste for enhanced hydrogen and synthetic natural gas yields employing chemical looping process

Zhuang Sun, Xiangxiang Chen, Po‐Chih Kuo, Lu Ding, Muhammad Aziz

2024Chemical Engineering Journal16 citationsDOIOpen Access PDF

Abstract

Synthetic natural gas (SNG) is a promising alternative to conventional fossil natural gas. This study proposes a chemical looping hydrogen production (CLHP)-based route for SNG synthesis and elucidates the insights and necessities of appropriately co-feeding different types of feedstocks to maximize the yields of hydrogen and subsequent SNG. A study employing microalgae (MA) and refuse-derived fuel (RDF) as biomass and municipal solid waste representatives demonstrates that blending MA with RDF in a proportion of 40 %:60 % (0.4MA-0.6RDF) eradicates oxygen carrier splitting. This boosts fuel-to-hydrogen efficiency from 74.1 % to 77.8 %, as well as subsequent thermal and exergy efficiencies of SNG production from 59.07 % and 55.8 % to 61.3 % and 57.92 %, respectively, compared to the use of MA alone. Nonetheless, blending fuels does not yield substantial economic advantages, as evidenced by the levelized cost of SNG production using pure MA and the 0.4MA-0.6RDF blend remaining at approximately 0.63 USD/Nm3.

Topics & Concepts

Biomass (ecology)Waste managementMunicipal solid wasteProcess (computing)Natural gasChemical looping combustionEnvironmental scienceSubstitute natural gasHydrogenChemistrySyngasEngineeringOrganic chemistryEcologyComputer scienceFluidized bedBiologyOperating systemChemical Looping and Thermochemical ProcessesHybrid Renewable Energy SystemsEnergy and Environment Impacts
Co-feeding biomass and municipal solid waste for enhanced hydrogen and synthetic natural gas yields employing chemical looping process | Litcius