Assessment of the recycling potential of stone processing plant wastes based on physicochemical features and market opportunities

Assessment of the recycling potential of stone processing plant wastes based on physicochemical features and market opportunities

The extraction of raw materials in many productive sectors has become problematic for the environment because of the negative impacts of the process and the inappropriate destination of the generated waste. Stone waste (SW) from the dimension stone industry has physical and chemical characteristics...

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Bibliographic Details
Published in:Journal of cleaner production Vol. 319; p. 128678
Main Authors: Simão, Lisandro, Souza, Marcelo Tramontin, Ribeiro, Manuel J., Klegues Montedo, Oscar Rubem, Hotza, Dachamir, Novais, Rui M., Raupp-Pereira, Fabiano
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-10-2021
Subjects:
Dimension stones
Marble waste
Ornamental rocks
Recycling
Stone sawing waste
Marble waste
Recycling
Stone sawing waste
Dimension stones
Ornamental rocks
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Summary:The extraction of raw materials in many productive sectors has become problematic for the environment because of the negative impacts of the process and the inappropriate destination of the generated waste. Stone waste (SW) from the dimension stone industry has physical and chemical characteristics with great potential for use as an alternative raw material in several industrial activities. Its main constituents include silica, alumina, alkaline, and alkaline earth oxides, usually combined as calcite and dolomite in the crystalline phases. In this work, a case study was conducted with SW from a processing plant of dimension stones (also known as ornamental rocks) located in Viana do Castelo, Portugal. In this new methodology, the SW powder samples were characterised by X-ray fluorescence spectrometry, X-ray diffraction, differential thermal analysis, and thermogravimetry. Physical features, such as moisture content, specific surface area, particle size distribution, and true density were also determined. The pH and electrical conductivity of the SW as a suspension were also evaluated. The specific SW was analysed against the literature considering aspects related to environmental legislation and standards (waste classification), physical and chemical characteristics (potential), production data (quantity), recycling availability (viability), and market opportunities (applicability). This novel way in terms of the form and content of a paper is an intermediate approach between an original article and a state-of-art review. SW is normally considered inert but, owing to its high fineness (<200 μm), some potentially hazardous compounds can been leached. The state-of-the-art of SW applications suggests that this waste is promising raw materials for ceramics and cement, which eventually encapsulate contaminants in their structure. A critical discussion of the literature was conducted to reduce the knowledge gap about the most promising valorisation strategies for SW. New recycling proposals are also suggested. [Display omitted] •A new methodology to evaluate SW valorisation was applied.•The recycling potential of stone waste (SW) was assessed.•Environmental legislation and physical and chemical features were considered.•The most promising applications for SW were critically discussed.•Ceramics and cement encapsulate contaminants from SW.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2021.128678