Waste into Fuel—Catalyst and Process Development for MSW Valorisation

The present review paper highlights recent progress in the processing of potential municipal solid waste (MSW) derived fuels. These wastes come from the sieved fraction (∅ < 40 mm), which, after sorting, can differ in biodegradable fraction content ranging from 5-60%. The fuels obtained from thes...

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Bibliographic Details
Published inCatalysts Vol. 8; no. 3; p. 113
Main Authors Pieta, Izabela, Epling, William, Kazmierczuk, Alicja, Lisowski, Pawel, Nowakowski, Robert, Serwicka, Ewa
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2018
Subjects
Biodegradability
Butanol
Carboxylic acids
Catalysis
Catalysts
Chemical reactions
Chlorine compounds
dry reforming
Electric power generation
Ethanol
gasification
HCl removal
Molten carbonate fuel cells
MSW
Municipal waste management
Ni catalyst
Nitrogen oxides
Noble metals
Organic compounds
Reforming
Solid oxide fuel cells
Solid waste management
Sorbents
Synthesis gas
Waste management
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Summary:The present review paper highlights recent progress in the processing of potential municipal solid waste (MSW) derived fuels. These wastes come from the sieved fraction (∅ < 40 mm), which, after sorting, can differ in biodegradable fraction content ranging from 5-60%. The fuels obtained from these wastes possess volumetric energy densities in the range of 15.6-26.8 MJL−1 and are composed mainly of methanol, ethanol, butanol, and carboxylic acids. Although these waste streams are a cheap and abundant source (and decrease the fraction going to landfills), syngas produced from MSW contains various impurities such as organic compounds, nitrogen oxides, sulfur, and chlorine components. These limit its use for advanced electricity generation especially for heat and power generation units based on high temperature fuel cells such as solid oxide fuel cells (SOFC) or molten carbonate fuel cells (MCFC). In this paper, we review recent research developments in the continuous MSW processing for syngas production specifically concentrating on dry reforming and the catalytic sorbent effects on effluent and process efficiency. A particular emphasis is placed on waste derived biofuels, which are currently a primary candidate for a sustainable biofuel of tomorrow, catalysts/catalytic sorbents with decreased amounts of noble metals, their long term activity, and poison resistance, and novel nano-sorbent materials. In this review, future prospects for waste to fuels or chemicals and the needed research to further process technologies are discussed.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal8030113