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Valorization of Material Wastes for Environmental, Energetic and Biomedical Applications
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The development of materials from industrial wastes has attracted the attention of the research community for years. A material's physico-chemical characteristics have specific impacts its properties and their application in environmental, energetic, and biomedical areas, such as in pollutant removal; CO2 capture; energy storage; catalytic oxidation and reduction processes; the conversion of biomass to biofuels; and drug delivery. Examples of such materials are activated carbons, clays, and zeolites, among others. The aim of this Special Issue is to collect the recent advances and progresses developed in this field considering valorised materials from industrial wastes and their applications in environmental, energetic, and biomedical areas.
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Keywords
- adsorption
- aerobic biodegradation
- agricultural residues
- backwash filtration
- bentonite
- biodegradation of plastic
- biomass gasification
- cellulose fibres
- CFD
- cogeneration plant
- cold venting
- composting process
- Copper
- Daphnia magna
- dispersion
- DOC
- Emerging contaminants
- Environmental impact
- equivalent stoichiometric cloud
- explosion risk assessment
- filter aids
- filter cake resistance
- filter media resistance
- filter regeneration
- gas explosion
- GHG emissions
- greenhouse gas
- hazard distances
- History of engineering & technology
- Ion exchange
- IPCC guidelines
- kinetics
- Life Cycle Assessment
- LNG vapour
- model evaluation
- municipal solid waste
- n/a
- natural clays
- particle layer
- phase change
- polyolefins
- precoat filtration
- precoat layer
- Q9
- reductive extraction
- resource recovery
- standard plastic testing
- SWDS
- Technology, engineering, agriculture
- Technology: general issues
- thiourea
- topography
- turbidity
- waste plastic materials
- wastewater treatment
- X-ray photoelectron spectroscopy (XPS)
- zeolite
Links
DOI: 10.3390/books978-3-0365-5692-5Editions