1. From hazardous asbestos containing wastes (ACW) to new secondary raw material through a new sustainable inertization process: a multimethodological mineralogical study
- Author
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C. Magrini, Alessandro Cavallo, Cecilia Viti, Giovanna Giorgetti, Claudio Vanneschi, Lucia Galimberti, G Capitani, N. M. Marian, Riccardo Salvini, Marian, N, Giorgetti, G, Magrini, C, Capitani, G, Galimberti, L, Cavallo, A, Salvini, R, Vanneschi, C, and Viti, C
- Subjects
Environmental Engineering ,Recrystallization (geology) ,Process (engineering) ,Health, Toxicology and Mutagenesis ,0211 other engineering and technologies ,02 engineering and technology ,010501 environmental sciences ,Raw material ,medicine.disease_cause ,01 natural sciences ,Asbestos ,GEO/09 - GEORISORSE MINERARIE E APPLICAZIONI MINERALOGICO-PETROGRAFICHE PER L'AMBIENTE E I BENI CULTURALI ,Crocidolite ,Health hazard ,Hazardous waste ,Asbestos fibers ,medicine ,Environmental Chemistry ,Waste Management and Disposal ,0105 earth and related environmental sciences ,Inert ,021110 strategic, defence & security studies ,Asbestos-bearing material ,Waste management ,Recrystallization ,Pollution ,Calcium-silicate cement phases ,Thermal deactivation ,Scientific method ,Chrysotile ,Environmental science ,Calcium-silicate cement phase - Abstract
Nowadays, asbestos-containing wastes (ACW) still represent an important environmental problem and a severe health hazard due to the well know pulmonary diseases derived from asbestos fibres inhalation. Except for a very few cases, ACW are currently confined in controlled landfills, giving rise to increasingly high amounts of still hazardous wastes. A promising alternative to landfill confinement is represented by ACW inertization, but the high cost of the inertization processes so far proposed by the scientific community have hampered the creation of actually operative plants. In this paper, we explore the possibility to use an innovative process that ensures the obtainment of asbestos-free inert material in an exceptionally short processing time, thus greatly reducing cost-related problems. The efficacy of the inertization process has been verified through accurate mineralogical investigations on both chrysotile and crocidolite de-activated fibres, through X-ray diffraction, scanning and transmission electron microscopy. Overall mineralogical, microstructural and granulometric characteristics of the inert bulk material suggest that it could be successfully re-used as a secondary raw material in ceramic industries. This innovative inertization procedure could therefore provide an effective and economically sustainable solution for ACW management.
- Published
- 2021