Bio-DEE Synthesis and Dehydrogenation Coupling of Bio-Ethanol to Bio-Butanol over Multicomponent Mixed Metal Oxide Catalysts

Within the Waste2Fuel project, innovative, high-performance, and cost-effective fuel production methods from municipal solid wastes (MSWs) are sought for application as energy carriers or direct drop-in fuels/chemicals in the near-future low-carbon power generation systems and internal combustion en...

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Bibliographic Details
Published in:Catalysts 2021-06, Vol.11 (6), p.660
Main Authors: Pieta, Izabela S., Michalik, Alicja, Kraleva, Elka, Mrdenovic, Dusan, Sek, Alicja, Wahaczyk, Ewa, Lewalska-Graczyk, Agnieszka, Krysa, Mikolaj, Sroka-Bartnicka, Anna, Pieta, Piotr, Nowakowski, Robert, Lew, Agata, Serwicka, Ewa M.
Format: Article
Language:English
Subjects:
Alternative energy sources
Aluminum
Biodiesel fuels
Biofuels
Biogas
Biomass
Butanol
Catalysts
Chemical composition
Chemical reactions
Chemicals
Climate change
Coupling
Crystal lattices
Dehydrogenation
Energy resources
Ethanol
Ethers
Fuel production
Hydroxides
Internal combustion engines
Lattice vacancies
Manganese
Metal oxides
Mixed oxides
Municipal waste management
Process parameters
Production methods
Raw materials
Selectivity
Solid waste management
Solid wastes
Synthesis
Topology
Vapor phases
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Summary:Within the Waste2Fuel project, innovative, high-performance, and cost-effective fuel production methods from municipal solid wastes (MSWs) are sought for application as energy carriers or direct drop-in fuels/chemicals in the near-future low-carbon power generation systems and internal combustion engines. Among the studied energy vectors, C1-C2 alcohols and ethers are mainly addressed. This study presents a potential bio-derived ethanol oxidative coupling in the gas phase in multicomponent systems derived from hydrotalcite-containing precursors. The reaction of alcohol coupling to ethers has great importance due to their uses in different fields. The samples have been synthesized by the co-precipitation method via layered double hydroxide (LDH) material synthesis, with a controlled pH, where the M(II)/M(III) ≈ 0.35. The chemical composition and topology of the sample surface play essential roles in catalyst activity and product distribution. The multiple redox couples Ni2+/Ni3+, Cr2+/Cr3+, Mn2+/Mn3+, and the oxygen-vacant sites were considered as the main active sites. The introduction of Cr (Cr3+/Cr4+) and Mn (Mn3+/Mn4+) into the crystal lattice could enhance the number of oxygen vacancies and affect the acid/base properties of derived mixed oxides, which are considered as crucial parameters for process selectivity towards bio-DEE and bio-butanol, preventing long CH chain formation and coke deposition at the same time.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal11060660