Litcius/Paper detail

A multifunctional plant for a sustainable reuse of marble waste toward circular economy

Giada La Scalia, Concetta Manuela La Fata, Antonella Certa, Rosa Micale

2021Waste Management & Research The Journal for a Sustainable Circular Economy11 citationsDOI

Abstract

The marble processing cycle involves the production of large quantities of wastes whose disposal represents an economic and environmental concern for marble companies due to the difficulty of identifying suitable landfills and the high transfer costs. In this context, the design of a sustainable industrial plant that allows the reuse of the calcium carbonate (CaCO 3 ) contained in the marble waste is extremely challenging. With this recognition, the main industrial applications of CaCO 3 are firstly analyzed in the present work to identify the physical–chemical properties required to CaCO 3 in these contexts. Later, different plant solutions are suggested to recover CaCO 3 from marble sludge in order to allow its use in industrial applications. The designed industrial plant includes an energy efficient drying phase, which exploits the thermal waste of the exhaust gases produced in a cogeneration section, and a subsequent milling phase. Since marble wastes currently constitute an economic burden for companies and an environmental emergency for the Public Administration, the performed technical–economic analysis shows that its recovery may represent an opportunity of sustainable development for the marble sector.

Topics & Concepts

ReuseWaste managementCircular economyCogenerationWork (physics)ExploitEngineeringCleaner productionProduction (economics)Industrial wasteSustainable developmentSustainabilityMunicipal solid wasteEnvironmental scienceEnvironmental impact assessmentIndustrial productionWaste-to-energyEconomic analysisCo-processingEnvironmental engineeringValorisationCalcium Carbonate Crystallization and InhibitionChemical Looping and Thermochemical ProcessesRecycling and utilization of industrial and municipal waste in materials production