TY - BOOK ID - 133990450 TI - Advanced Technology of Waste Treatment AU - Vollprecht, Daniel AU - Sarc, Renato PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - selective Cu(II) separation KW - sustainable waste treatment KW - municipal solid waste KW - polymer-assisted ultrafiltration KW - real fly ash extracts KW - urban mining KW - pilot installation KW - MSWI fly ash KW - properties of fly ash KW - acid leaching KW - heavy metal recovery KW - marine litter KW - waste treatment KW - plastic waste KW - pyrolysis KW - gasification KW - incineration KW - thermogravimetric analysis KW - biotechnological upcycling KW - plastics recycling KW - feedstock recycling KW - plastic pyrolysis KW - lumped modeling KW - kinetic modeling KW - ReOil KW - risk modelling KW - portable batteries KW - lithium batteries KW - fire hazards KW - waste management KW - lithium-ion-batteries KW - pyrometallurgical recycling KW - carbothermal reduction KW - wood ash treatment KW - chromate reduction KW - hot alkaline extraction KW - recycling KW - refractory KW - regenerate KW - electrodynamic fragmentation KW - innovative process KW - process optimization KW - enhanced landfill mining KW - NEW-MINE KW - particle size distribution KW - compositional data analysis KW - simplex KW - isometric log-ratios KW - multivariate multiple linear regression KW - mechanical processing KW - commercial waste KW - shredder KW - chemical recycling KW - wet-mechanical processing KW - polyolefins KW - circular economy KW - WEEE KW - recovery of aromatics KW - oil upgrading KW - dehalogenation KW - hydrothermal carbonization KW - sewage sludge KW - phosphorus recovery KW - hydrochar KW - process-water KW - pH KW - mixed waste KW - municipal waste KW - recovery KW - contaminants KW - plastics KW - digitalisation KW - smart waste factory KW - n/a UR - https://www.unicat.be/uniCat?func=search&query=sysid:133990450 AB - The protection of human health and the environment (representing the main reason for waste management), as well as the sustainable use of natural resources, requires chemical, biological, physical and thermal treatment of wastes. This refers to the conditioning (e.g., drying, washing, comminution, rotting, stabilization, neutralization, agglomeration, homogenization), conversion (e.g., incineration, pyrolysis, gasification, dissolution, evaporation), and separation (classification, direct and indirect (i.e., sensor-based) sorting) of all types of wastes to follow the principles of the waste hierarchy (i.e., prevention (not addressed by this issue), preparation for re-use, recycling, other recovery, and disposal). Longstanding challenges include the increase of yield and purity of recyclable fractions and the sustainable removal or destruction of contaminants from the circular economy.This Special Issue on “Advanced Technology of Waste Treatment” of Processes collects high-quality research studies addressing challenges on the broad area of chemical, biological, physical and thermal treatment of wastes. ER -