COPPER SLAG: ASSESSMENT OF THE TECHNICAL FEASIBILITY OF POSSIBLE APPLICATION ROUTES – A SYSTEMATIC REVIEW OF THE LITERATURE

Bruno de Paulo Silva; Edna dos Santos Almeida; Victor Teixeira da Silva Aragao

doi:10.5151/siintec2024-393490

Blucher Engineering Proceedings

Dezembro 2024, vol.11, num.2 - X Simpósio Internacional de Inovação e Tecnologia

Full Article - Open Access Idioma principal | Segundo principal

COPPER SLAG: ASSESSMENT OF THE TECHNICAL FEASIBILITY OF POSSIBLE APPLICATION ROUTES – A SYSTEMATIC REVIEW OF THE LITERATURE

Silva, Bruno de Paulo; Almeida, Edna dos Santos; Aragao, Victor Teixeira da Silva

Full Article:

"The objective of this work is, through a systematic review, to study the reuseof copper slag to recover contained metals not rejected by foundries or to use it as asource of raw material in other products. In this study, we carried out a systematicreview of the literature to collect evidence and investigate gaps on the technicalaspects of the reuse of slag generated in copper metallurgy. It was verified through theanalysis of information obtained in the last 5 years that the technological domain wasfocused on enabling the reuse of waste and the development of alternative products.Finally, studies show that there are technical solutions for metal recovery and highpotential for applications in the production of materials with greater added value."

Download (PDF)

Palavras-chave: - -

DOI: 10.5151/siintec2024-393490

Referências bibliográficas

[1] "1Shen, H.; Forssberg, E. “Uma visão geral da recuperação de metais de
[2] escórias”. Gestão de Resíduos. 2003, 23, Pag. 933–949.
[3] 2 Madheswaran, CK; Ambily, PS; Dattatreya, JK; Rajamane, NP Estudos sobre o uso
[4] de escória de cobre como material de substituição para areia de rio em construções
[5] prediais. J.Inst. Eng. 2014, 95, Pag 169–177.
[6] 3 Edraki, M.; Baumgartl, T.; Manlapig, E.; Bradshaw, D.; Francos, DM; Moran, CJ
[7] Projetando rejeitos de minas para melhores resultados ambientais, sociais e
[8] econômicos: Uma revisão de abordagens alternativas. J. Limpo. Prod. 2014, 84, 411–
[9] 420.
[10] 4 Wang, X.; Geysen, D.; van Gerven, T.; Blanpain, B. Caracterização de escória de
[11] cobre. Na REWAS 2013 ; Springer: Cham, Suíça, 2013; págs. 54–68
[12] 5González, C.; Parra, R.; Klenovcanova, A.; Imris, I.; Sánchez, M. Redução de
[13] escórias de cobre chilenas: Um caso de projeto de gestão de resíduos. Escândalo. J.
[14] Conheceu. 2005 , 34 , 143–149.
[15] 6Phiri, Tina Chanda; SINGH, Pritam; NIKOLOSKI, Aleksandar N. The potential for
[16] copper slag waste as a resource for a circular economy: A review–Part II. Minerals
[17] Engineering, v. 172, p. 107150, 2021
[18] 7CEDES, 2016. Guia de emissão de títulos verdes. Disponível em :
[19] <https://cebds.org/>. Last access: 06/12/2024 8Klaffenbach, Eric, Sina Mostaghel, Muxing Guo, and Bart Blanpain. ""Thermodynamic
[20] Analysis of Copper Smelting, Considering the Impact of Minor Elements Behavior on
[21] Slag Application Options and Cu Recovery."" Journal of Sustainable Metallurgy 7.2
[22]
[23] 9Gabasiane, Tlotlo Solomon, Gwiranai Danha, Tirivaviri A. Mamvura, Tebogo
[24] Mashifana, and Godfrey Dzinomwa. ""Environmental and Socioeconomic Impact of
[25] Copper Slag—A Review."" Crystals (Basel) 11.12 (2021).
[26] 10Gabasiane, Tlotlo Solomon, Gwiranai Danha, Tirivaviri A. Mamvura, Tebogo
[27] Mashifana, and Godfrey Dzinomwa. ""Environmental and Socioeconomic Impact of
[28] Copper Slag—A Review."" Crystals (Basel) 11.12 (2022).
[29] 11Tian, Hongyu, Zhengqi Guo, Jian Pan, Deqing Zhu, Congcong Yang, Yuxiao Xue,
[30] Siwei Li, and Dingzheng Wang. ""Comprehensive Review on Metallurgical Recycling
[31] and Cleaning of Copper Slag."" Resources, Conservation and Recycling 168 (2021).
[32] 12Phiri, Tina Chanda, Pritam Singh, and Aleksandar N. Nikoloski. ""The Potential for
[33] Copper Slag Waste as a Resource for a Circular Economy: A Review – Part
[34] I."" Minerals Engineering 180 (2022).
[35] 13Wang, Zengwu, Jintao Gao, Xi Lan, Guoliang Feng, and Zhancheng Guo. ""A New
[36] Method for Continuous Recovery of Fine Copper Droplets from Copper Matte Smelting
[37] Slag via Super-gravity."" Resources, Conservation and Recycling 182, 2022.
[38] 14Klaffenbach, Eric, Victor Montenegro, Muxing Guo, and Bart Blanpain. ""Sustainable
[39] and Comprehensive Utilization of Copper Slag: A Review and Critical
[40] Analysis."" Journal of Sustainable Metallurgy 9.2 (2023).
[41] 15Aleyna Gümüşsoy, Mikail Başyi̇ği̇t, Elif Uzun Kart,Economic potential and
[42] environmental impact of metal recovery from copper slag flotation tailings, Resources
[43] Policy, Volume 80, 2022.
[44] 16Sari, Zeynel Abidin, and M. Deniz Turan. ""Investigation of Atmospheric Pressure
[45] Leaching Conditions and Leaching Kinetics in the Obtaining of Industrial Copper (II)
[46] Acetate Solution from Copper Slags."" Journal of Central South University 30.8 (2023).
[47] 17Shang, Wenxing; Zhiwei Peng, Yawen Huang, Foquan Gu, Jian Zhang, Huimin Tang,
[48] Lei Yang, Weiguang Tian, Mingjun Rao, Guanghui Li, Tao Jiang,Production of glassceramics from metallurgical slags, Journal of Cleaner Production, Volume 317, 2021.
[49] 18Hagiri, Masahide, and Kazufumi Honda. ""Preparation and Evaluation of Gypsum
[50] Plaster Composited with Copper Smelter Slag."" Cleaner Engineering and
[51] Technology 2 (2021)."

Como citar:

Silva, Bruno de Paulo; Almeida, Edna dos Santos; Aragao, Victor Teixeira da Silva; "COPPER SLAG: ASSESSMENT OF THE TECHNICAL FEASIBILITY OF POSSIBLE APPLICATION ROUTES – A SYSTEMATIC REVIEW OF THE LITERATURE", p-1050-1057. In: . São Paulo: Blucher, 2024.
ISSN 23577592, DOI 10.5151/siintec2024-393490

últimos 30 dias

94
downloads

118
visualizações

420
indexações

Blucher Engineering Proceedings

COPPER SLAG: ASSESSMENT OF THE TECHNICAL FEASIBILITY OF POSSIBLE APPLICATION ROUTES – A SYSTEMATIC REVIEW OF THE LITERATURE

COPPER SLAG: ASSESSMENT OF THE TECHNICAL FEASIBILITY OF POSSIBLE APPLICATION ROUTES – A SYSTEMATIC REVIEW OF THE LITERATURE

Full Article:

Referências bibliográficas

Como citar:

Sobre a Blucher

Para você

Outros