Waste valorization

Waste valorization, beneficial reuse, beneficial use, value recovery or waste reclamation^[1] is the process of waste products or residues from an economic process being valorized (given economic value), by reuse or recycling in order to create economically useful materials.^[2]^[1]^[3] The term comes from practices in sustainable manufacturing and economics, industrial ecology and waste management. The term is usually applied in industrial processes where residue from creating or processing one good is used as a raw material or energy feedstock for another industrial process.^[1]^[3] Industrial wastes in particular are good candidates for valorization because they tend to be more consistent and predictable than other waste, such as household waste.^[1]^[4]

Historically, most industrial processes treated waste products as something to be disposed of, causing industrial pollution unless handled properly.^[5] However, increased regulation of residual materials and socioeconomic changes, such as the introduction of ideas about sustainable development and circular economy in the 1990s and 2000s increased focus on industrial practices to recover these resources as value add materials.^[5]^[6] Academics focus on finding economic value to reduce environmental impact of other industries as well, for example the development of non-timber forest products to encourage conservation.

^ ^a ^b ^c ^d Kabongo, Jean D. (2013), "Waste Valorization", in Idowu, Samuel O.; Capaldi, Nicholas; Zu, Liangrong; Gupta, Ananda Das (eds.), Encyclopedia of Corporate Social Responsibility, Berlin, Heidelberg: Springer, pp. 2701–2706, doi:10.1007/978-3-642-28036-8_680, ISBN 978-3-642-28036-8, retrieved 17 June 2021
^ "Waste Valorization". www.aiche.org. Retrieved 17 June 2021.
^ ^a ^b "When a waste becomes a resource for energy and new materials". www.biogreen-energy.com. 28 December 2017. Retrieved 17 June 2021.
^ Nzihou, Ange; Lifset, Reid (March 2010). "Waste Valorization, Loop-Closing, and Industrial Ecology". Journal of Industrial Ecology. 14 (2): 196–199. Bibcode:2010JInEc..14..196N. doi:10.1111/j.1530-9290.2010.00242.x. S2CID 155060338.
^ ^a ^b "Waste and Biomass Valorization". Springer. Retrieved 17 June 2021.
^ Arancon, Rick Arneil D.; Lin, Carol Sze Ki; Chan, King Ming; Kwan, Tsz Him; Luque, Rafael (2013). "Advances on waste valorization: new horizons for a more sustainable society". Energy Science & Engineering. 1 (2): 53–71. Bibcode:2013EneSE...1...53A. doi:10.1002/ese3.9. ISSN 2050-0505.

[:2-1] Kabongo, Jean D. (2013), "Waste Valorization", in Idowu, Samuel O.; Capaldi, Nicholas; Zu, Liangrong; Gupta, Ananda Das (eds.), Encyclopedia of Corporate Social Responsibility, Berlin, Heidelberg: Springer, pp. 2701–2706, doi:10.1007/978-3-642-28036-8_680, ISBN 978-3-642-28036-8, retrieved 17 June 2021

[2] "Waste Valorization". www.aiche.org. Retrieved 17 June 2021.

[:1-3] "When a waste becomes a resource for energy and new materials". www.biogreen-energy.com. 28 December 2017. Retrieved 17 June 2021.

[:6-4] Nzihou, Ange; Lifset, Reid (March 2010). "Waste Valorization, Loop-Closing, and Industrial Ecology". Journal of Industrial Ecology. 14 (2): 196–199. Bibcode:2010JInEc..14..196N. doi:10.1111/j.1530-9290.2010.00242.x. S2CID 155060338.

[:3-5] "Waste and Biomass Valorization". Springer. Retrieved 17 June 2021.

[:4-6] Arancon, Rick Arneil D.; Lin, Carol Sze Ki; Chan, King Ming; Kwan, Tsz Him; Luque, Rafael (2013). "Advances on waste valorization: new horizons for a more sustainable society". Energy Science & Engineering. 1 (2): 53–71. Bibcode:2013EneSE...1...53A. doi:10.1002/ese3.9. ISSN 2050-0505.

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