Hydrothermal deconstruction of municipal solid waste for solid reduction and value production

In order to reduce solid content and to recover value from municipal solid waste materials, laboratory-scale batch hydrothermal deconstruction tests were carried out under subcritical wet oxidation conditions. Treatments of the selected solid waste materials (plastics, timber, tyres, cardboards, and...

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Bibliographic Details
Published in:Journal of cleaner production 2018-11, Vol.201, p.812-819
Main Authors: Anthraper, Dhanya, McLaren, Jodi, Baroutian, Saeid, Munir, M.T., Young, Brent R.
Format: Article
Language:English
Subjects:
Hydrothermal treatment
Municipal solid waste
Plastic waste
Wet oxidation
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Summary:In order to reduce solid content and to recover value from municipal solid waste materials, laboratory-scale batch hydrothermal deconstruction tests were carried out under subcritical wet oxidation conditions. Treatments of the selected solid waste materials (plastics, timber, tyres, cardboards, and sanitary items) were carried out at a temperature range from 240 to 280 °C with initial pressure of 35 bar oxygen. A substantial solid reduction was observed for the wastes through the wet oxidation deconstruction process, which breaks down the physical structure of the waste materials and segregates the solids into useable process outputs, such as acetic acid. At 280 °C, more than 90% of total suspended solids were successfully reduced and at least 1500 mg/L of acetic acid was produced for each individual material. The mixture of materials representing a non-recyclable municipal solid waste stream produced approximately 2930 mg/L of acetic acid. Soluble chemical oxygen demand showed different trends for different materials due to competing effects of solubilisation and oxidation. The high concentrations of acetic acid product offer opportunities for recovery and re-use if effectively managed therefore such a process can provide a significant commercial and environmental benefit. •Wet oxidation was used to treat non-recyclable solid waste materials.•Wet oxidation at 280 °C successfully reduced solid concentration by over 90%.•High concentration of acetic acid was obtained from wet oxidation of solid waste.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2018.08.116