Abstract
This review paper reports a detailed characterization of some combustion or incineration residues and by-products produced in a medium-sized city in Northern Italy. The municipal solid waste incineration (MSWI) generates fly ash, which is a toxic waste. Coal fly ash (CFA) and flue gas desulfurization (FGD) derive from the thermoelectric coal plant located in the same city. Along with these ashes, silica fume and rice husk ash are also considered for the stabilization of fly ash based on their amorphous silica content with the aim to convert them into an inert material. The characterization of all the investigated ashes was performed using different techniques: X-ray diffraction, total reflection X-ray fluorescence, scanning electron microscopy, and transmission electron microscopy. The aim of this work is to describe the reuse possibilities that were proposed for these ashes, which were determined also on the basis of their structural properties. Several possible applications of the investigated ashes are proposed, and the most suitable reuse of stabilized fly ash samples seems to be the production of sustainable plastic composites. This paper shows that the reuse of the by-product materials can allow natural resources to be preserved following the principles of a circular economy.
Highlights
Municipal solid waste (MSW) is an abundant waste stream composed of materials and products that should be recycled because of the raw materials it contains
Its color varies from light to dark grey as a function of manufacturing processes, such as wood chip composition, furnace temperature, ratio of wood chip to the coal used, exhaust temperature, and type of metal produced [25]
The transmission electron microscopy (TEM) images revealed the presence of spherical particles assembled in agglomerates, which are formed during collection and cooling processes
Summary
Municipal solid waste (MSW) is an abundant waste stream composed of materials and products that should be recycled because of the raw materials it contains. This is not always feasible, because MSW includes non-homogenous products with a combination of different materials, such as wood, metals, glass, plastic, etc. In addition to producing electricity, it recovers the heat generated and coveys it to the homes of individual users. This is achieved through a district heating network of over 670 km. In the same city, a multi-fuel cogeneration thermoelectric plant that uses natural gas and coal to provide district heating and electricity production is present [3]
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