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2020 (3)

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Book
Novel Bioderived Composites from Wastes
Authors: --- ---
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

The recovery of solid wastes for the preparation of innovative composite materials not only represents an economic advantage, but also offers an ecological opportunity for the utilization of by-products which would otherwise be landfilled. Specifically, the reuse and recycling of waste lead to important savings of raw materials and energy, since these by-products, generally deriv from agricultural or industrial activities, are abundant in nature. Moreover, a reduction of the environmental and related sanitary impacts can be also achieved. For this reason, a recycling operation is fundamental for the improvement of the environmental sustainability, because these secondary raw materials become a resource that can be easily reused without the modification of the peculiar characteristics, in order to obtain new and performing composites, with a low specific weight, high durability, and long life cycle.


Book
Novel Bioderived Composites from Wastes
Authors: --- ---
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

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Bookmark

Abstract

The recovery of solid wastes for the preparation of innovative composite materials not only represents an economic advantage, but also offers an ecological opportunity for the utilization of by-products which would otherwise be landfilled. Specifically, the reuse and recycling of waste lead to important savings of raw materials and energy, since these by-products, generally deriv from agricultural or industrial activities, are abundant in nature. Moreover, a reduction of the environmental and related sanitary impacts can be also achieved. For this reason, a recycling operation is fundamental for the improvement of the environmental sustainability, because these secondary raw materials become a resource that can be easily reused without the modification of the peculiar characteristics, in order to obtain new and performing composites, with a low specific weight, high durability, and long life cycle.


Book
Novel Bioderived Composites from Wastes
Authors: --- ---
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

The recovery of solid wastes for the preparation of innovative composite materials not only represents an economic advantage, but also offers an ecological opportunity for the utilization of by-products which would otherwise be landfilled. Specifically, the reuse and recycling of waste lead to important savings of raw materials and energy, since these by-products, generally deriv from agricultural or industrial activities, are abundant in nature. Moreover, a reduction of the environmental and related sanitary impacts can be also achieved. For this reason, a recycling operation is fundamental for the improvement of the environmental sustainability, because these secondary raw materials become a resource that can be easily reused without the modification of the peculiar characteristics, in order to obtain new and performing composites, with a low specific weight, high durability, and long life cycle.

Keywords

History of engineering & technology --- Radioactive soil waste --- Gd2Ti2O7 pyrochlore --- SHS --- CeO2 --- Immobilization --- cementitious grout --- green grout --- cement --- slag substitution --- valorization --- circular economy --- cellulose aerogel --- oil absorbent --- cellulose --- white bamboo fibril --- water pollution --- natural rubber --- nanosilica --- mechanical property --- fertilizer plant --- hexafluorosilicic acid --- waste water --- cement composites --- recycled waste porous glass --- end-of-life tyre rubber --- safe production --- thermal insulation --- mechanical resistance --- render --- cement and cement-lime reinforced mortars --- natural fiber --- sheep's wool --- sustainability --- chitosan film --- emerging pollutants --- ketoprofen --- food waste --- adsorption --- recycle --- recycled expanded polystyrene --- cement mortars --- eggshell --- Direct Blue 78 --- kinetics --- isotherms --- pulsed light --- fiber reinforced --- cementless composites --- microscopic property --- co-fired fly ash --- green materials --- biochar --- wheat straw --- sorbent --- cobalt --- copper --- soil --- Radioactive soil waste --- Gd2Ti2O7 pyrochlore --- SHS --- CeO2 --- Immobilization --- cementitious grout --- green grout --- cement --- slag substitution --- valorization --- circular economy --- cellulose aerogel --- oil absorbent --- cellulose --- white bamboo fibril --- water pollution --- natural rubber --- nanosilica --- mechanical property --- fertilizer plant --- hexafluorosilicic acid --- waste water --- cement composites --- recycled waste porous glass --- end-of-life tyre rubber --- safe production --- thermal insulation --- mechanical resistance --- render --- cement and cement-lime reinforced mortars --- natural fiber --- sheep's wool --- sustainability --- chitosan film --- emerging pollutants --- ketoprofen --- food waste --- adsorption --- recycle --- recycled expanded polystyrene --- cement mortars --- eggshell --- Direct Blue 78 --- kinetics --- isotherms --- pulsed light --- fiber reinforced --- cementless composites --- microscopic property --- co-fired fly ash --- green materials --- biochar --- wheat straw --- sorbent --- cobalt --- copper --- soil

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