ESTUDO DE VIABILIDADE TÉCNICA DE USINA DE RECICLAGEM DE RCC EM JUAZEIRO DO NORTE-CE : TECHNICAL FEASIBILITY STUDY OF A CCW RECYCLING PLANT IN JUAZEIRO DO NORTE-CE

Marcus Vinicius de Oliveira Brasil; Matheus Souza  Leite; Maria Gorethe de Sousa Lima  Brito; Gabriela Aguiar  Rezende

doi:10.29183/2447-3073.MIX2024.v10.n3.17-34

Authors

Marcus Vinicius de Oliveira Brasil UFCA - UNIVERSIDADE FEDERAL DO CARIRI
Matheus Souza Leite UFCA - UNIVERSIDADE FEDERAL DO CARIRI
Maria Gorethe de Sousa Lima Brito UFCA - UNIVERSIDADE FEDERAL DO CARIRI
Gabriela Aguiar Rezende UFNT - UNIVERSIDADE FEDERAL DO NORTE DE TOCANTINS

DOI:

https://doi.org/10.29183/2447-3073.MIX2024.v10.n3.17-34

Keywords:

Environmental impacts, Public policy, Generation profile, Cariri

Abstract

The objective of this paper is to analyze the technical feasibility of implementing a recycling plant for civil construction waste in Juazeiro do Norte, making use of carrying out a survey on the legal flow of recyclable construction waste, in addition to estimating the annual volume of class A civil construction recyclable waste in the city of Juazeiro do Norte, and the discussion of the national scenario of civil construction recycling plants and the local context for a hypothetical plant. Studies were carried out on the legal flow of machining and the possibility of inserting the waste system, in addition to promoting a calculation of waste generated in the municipality, and comparison with similar sizes in the literature and framework. In this way, it can be observed that the technical characteristics regarding the demand of municipalities that have a recycling plant, in addition to legislation that still lacks greater regulation for the sector, there are also in the process of studying the implementation of an intermunicipal consortium to deal with urban solid waste that includes civil construction waste.

Author Biographies

Marcus Vinicius de Oliveira Brasil, UFCA - UNIVERSIDADE FEDERAL DO CARIRI

Graduado em Ciência da Computação pela Universidade Estadual do Ceará (1999) e em Teologia pela Faculdade Kurios-FAK-Maranguape-CE (2007) com chancela da Universidade Federal do Ceará (UFC). Especialista em Planejamento e Desenvolvimento Econômico- UFC(2001), e em Psicopedagogia Clínica e Institucional com ênfase em Gestão Escolar- FAK (2009). Mestre em Administração pela Universidade Estadual do Ceará (2001). Foi o 1º coordenador do curso de Administração da UFC no Cariri. Coordena o Núcleo de Empreendedorismo, Responsabilidade e Marketing Social- NERMS desde 2007. Foi bolsista de mestrado e de doutorado pela FUNCAP/CE e de Pós-Doutorado- PNPD/CAPES. Doutor em Administração de Empresas pela Universidade de Fortaleza-PPGA/UNIFOR (2014). Pós-Doutor em Administração e Controladoria pela Universidade Federal do Ceará-PPAC/UFC (2015). É professor Associado da Universidade Federal do Cariri- UFCA. Foi Vice-Diretor Pro-Tempore do Centro de Ciências Sociais Aplicadas-CCSA .

LATTES: http://lattes.cnpq.br/1806063717574977

ORCID: https://orcid.org/0000-0001-6525-9257

Matheus Souza Leite, UFCA - UNIVERSIDADE FEDERAL DO CARIRI

Nascido em 1996 e natural de Fortaleza, Engenheiro Civil pela Universidade Federal do Cariri; bolsista PIBIT pela UFCA em Algoritmo de busca e otimização simulated annealing e métodos de classificação.

LATTES: http://lattes.cnpq.br/6895095322333761

ORCID: https://orcid.org/0000-0002-9902-4920

Maria Gorethe de Sousa Lima Brito, UFCA - UNIVERSIDADE FEDERAL DO CARIRI

Graduação em Engenharia QuÍmIca pela Universidade Federal da Paraíba (1997), especialização em Docência no Ensino Superior pela Faculdade Leão Sampaio (2009), mestrado em Engenharia Civil (área de concentração Recursos Hídricos/Eng. Sanitária) pela Universidade Federal da Paraíba (2001) e doutorado em Engenharia de Processos pela Universidade Federal de Campina Grande (2008). Líder do grupo de pesquisa em Tecnologias Ambientais e Controle da Poluição. Professora do curso de graduação em Engenharia Civil e do Programa de Pós-Graduação em Desenvolvimento Regional Sustentável (PRODER), ambos da Universidade Federal do Cariri (UFCA). Atualmente é coordenadora do Laboratório de Saneamento da UFCA.. É bolsista do Programa de Bolsas de Produtividade em Pesquisa, Estímulo à Interiorização e à Inovação Tecnológica - BPI/FUNCAP. Experiência nas áreas de Engenharia Química (com ênfase em escoamentos multifásicos) e Engenharia Sanitária (com ênfase nos seguintes temas: qualidade físico - química de águas naturais e residuárias, tratamento de águas residuárias e qualidade de sedimentos de leitos de rios e lagos).

LATTES: http://lattes.cnpq.br/3044781880426214

ORCID: https://orcid.org/0000-0001-8977-1116

Gabriela Aguiar Rezende, UFNT - UNIVERSIDADE FEDERAL DO NORTE DE TOCANTINS

Possui graduação em Arquitetura e Urbanismo pela Universidade Federal do Tocantins (2018) e graduação em Design de Interiores pelo Centro de Ensino Superior de Maringá UniCesumar (2018). Bolsista pela CNPq - Capes, cursou um ano Interior Design na instituição Fanshawe College (2015) na cidade de London, Canadá pela CNPq - CAPES. Tem experiência na área de projetos residenciais e comerciais, com ênfase na área de interiores.Pós-graduada em Arquitetura comercial e visual merchandising. Atualmente cursando o mestrado profissionalizante de Engenharia Ambiental na Universidade Federal do Tocantins e Professora convidada no curso de Arquitetura e Urbanismo na mesma instituição.

LATTES: http://lattes.cnpq.br/5753362752625598

ORCID: https://orcid.org/0000-0003-3291-5371

References

AMAJU. Diagnosis of Solid Waste in Juazeiro do Norte (CE). In: Practices Projects and Consulting LTDA and EnviTeSB LTDA – Solid Waste Portal. Juazeiro do Norte, 2016.

ANGULO, S. C. et al. Processing of construction and demolition waste in power plants European recycling. National Meeting on the Use of Waste in Construction, Feira de Santana, 2009.

ARAÚJO, F. I. de. Governance and territory: an institutional analysis of intermunicipal public consortia for solid waste management in medium-sized cities in the state of Ceará. 2020. Available at: https://repositorio.unb.br/handle/10482/40493. Accessed on: 11 Dec. 2021.

BESSA, S. A. L.; MELLO, T. A. G.; LOURENÇO, K. K. Quantitative and qualitative analysis of construction and demolition waste generated in Belo Horizonte. Urbe – Brazilian Journal of Urban Management, v. 11, e20180099, 2019. DOI https://doi.org/10.1590/2175-3369.011.e20180099. Available at: <https://periodicos.pucpr.br/index.php/Urbe/article/view/24853/23648>. Accessed on: 18 Aug. 2021

BRAZIL. Law No. 12,305, of August 2, 2010. Establishes the National Solid Waste Policy; amends Law No. 9605, of February 12, 1998; and takes other measures. Available at: <http://www.planalto.gov.br/ccivil_03/_ato2007-2010/2010/lei/l12305.htm>. Access: 18 Aug. 2021.

BRAZIL. Ministry of the Environment. Minister's office. Ordinance No. 280, of June 29, 2020. Brasília 2020 Available at: < https://www.in.gov.br/en/web/dou/-/portaria-n-280-de-29-de-junho- de-2020-264244199>. Access: 05 Jan. 2022.

BRAZIL. National Council for the Environment. CONAMA Resolution No. 307, of July 5, 2002. Establishes guidelines, criteria and procedures for the management of construction waste. Official Gazette of the Federative Republic of Brazil, Brasília, DF, 5 July. 2002, p. 95-96. Available at: <https://www.unifesp.br/reitoria/dga/images/legislacao/residuos2/CONAMA_RES_CONS_2002_307.pdf.>. Accessed on: 18 Aug. 2021.

BRAZIL. National Council for the Environment. CONAMA Resolution No. 348, of August 16, 2004. Amends CONAMA Resolution No. 307, of July 5, 2002, including asbestos in the hazardous waste class. Official Gazette [of] the Federative Republic of Brazil, Brasília, DF, 17 Aug. 2004, Section 1, p. 70. Available at: <https://www.caubr.gov.br/wp-content/uploads/2013/08/altera-a-resolucao-conama-no-307-de-5-de-julho-de- 2002-including-asbestos-in-class-of-hazardous-waste.pdf>. Accessed on: 18 Aug. 2021.

BRAZIL. National Council for the Environment. CONAMA Resolution No. 431, of May 24, 2011. Amends art. 3 of Resolution No. 307, of July 5, 2002, of the National Council for the Environment – CONAMA, establishing a new classification for gypsum. Official Gazette [of the] Federative Republic of Brazil, Brasília, DF, 25 May 2011, p. 123. Available at: <http://www.ipaam.am.gov.br/wp-content/uploads/2021/01/Conama-431-11-Alterao-art.-3-da-Conama-307.pdf >. Accessed on: 18 Aug. 2021.

BRAZIL. National Council for the Environment. CONAMA Resolution No. 448, of January 18, 2012. Amends arts. 2nd, 4th, 5th, 6th, 8th, 9th, 10th, 11th of Resolution No. 307, of July 5, 2002, of the National Council for the Environment – CONAMA. Official Gazette [of] the Federative Republic of Brazil, Brasília, DF, 18 Jan. 2012, p. Available at: <http://www.ibama.gov.br/sophia/cnia/legislacao/CONAMA/RE0448-180112.PDF.>. Accessed on: 18 Aug. 2021.

BRAZIL. National Council for the Environment. CONAMA Resolution No. 469, of July 29, 2015. Amends CONAMA Resolution No. 307, of July 5, 2002, which establishes guidelines, criteria and procedures for the management of construction waste. Official Gazette [of] the Federative Republic of Brazil, Brasília, DF, 29 Jul. 2015. Available at: <http://www.ctpconsultoria.com.br/pdf/Resolucao-CONAMA-469-de-29-07-2015.pdf>. Accessed on: 18 Aug. 2021.

BRAZIL. Constitution of the Federative Republic of Brazil: constitutional text enacted on October 5, 1988, with the changes determined by Constitutional Revision Amendments 1 to 6/94, Constitutional Amendments 1/92 to 91/2016 and Legislative Decree 186 /2008. Brasília: Federal Senate, Coordination of Technical Editions, 2016. Available at: <https://www2.senado.leg.br/bdsf/bitstream/handle/id/518231/CF88_Livro_EC91_2016.pdf>. Accessed on: 25 Mar. 2021.

BRAZILIAN ASSOCIATION FOR RECYCLING CIVIL CONSTRUCTION AND DEMOLITION WASTE. Sectorial research report 2017/2018. São Paulo, 2018. Available at: <https://abrecon.org.br/pesquisa_setorial/>. Accessed on: 15 Nov. 2021.

BRAZILIAN ASSOCIATION FOR RECYCLING CIVIL CONSTRUCTION AND DEMOLITION WASTE. Sectorial research report 2014/2015. São Paulo, 2015. Available at: <https://abrecon.org.br/pesquisa_setorial/>. Accessed on: 18 Jul. 2021.

BRAZILIAN ASSOCIATION OF PUBLIC CLEANING AND SPECIAL WASTE COMPANIES. Overview of solid waste in Brazil. 2020. Available at: https://abrelpe.org.br/panorama-2020/. Accessed on: 15 Jul. 2021.

BRAZILIAN INSTITUTE OF GEOGRAPHY AND STATISTICS. Juazeiro do Norte: panorama. Rio de Janeiro, 2021. Available at: <https://cidades.ibge.gov.br/Brazil/ce/juazeiro-do-norte/panorama>. Accessed on: 16 Jul. 2021.

BRAZILEIRO, L. L.; MATOS, J. M. E. Bibliographic review: reuse of construction and demolition waste in the construction industry. Ceramics, São Paulo, v. 61, no. 358, p. 178-189, 2015. ISSN 1678-4553 (online version). DOI 10.1590/0366-69132015613581860. Available at: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0366-69132015000200178&lng=en&nrm=iso>. Accessed on: 24 Mar. 2021.

CEARÁ. Law No. 16,032, of June 20, 2016. Establishes the state policy for solid waste within the state of Ceará. Official Gazette [of] the State of Ceará, Executive Branch, Fortaleza, CE, 22 jun. 2016. Available at: <http://www.mpce.mp.br/wp-content/uploads/2017/06/Lei-16.032-2016-Pol%C3%ADtica-Estadual-de-Residuos-S%C3% B3lidos-CE.pdf>. Accessed on: 05 Jun. 2021.

DAMASCENO, T.M.; RODRIGUES, T. C. Feasibility analysis of the implementation of a recycling plant for solid construction waste in the city of Itabira-MG. Scientific Journal Doctum Multidisciplinary, v. 2, no. 3, 2019.

DUQUE DE CAXIAS WASTE COLLECTORS AND WASTE COLLECTORS' WORK COOPERATIVES. Improvement. Available at: <http://www.cooperativactrcaxias.com.br/beneficiamento/>. Accessed on: 12 Dec. 2021.

EVANGELISTA, P. P. A.; COSTA, D.B.; ZANTA, V. M. Sustainable alternative for the disposal of class A construction waste: systematic recycling at construction sites. Built Environment, Porto Alegre, v. 10, no. 3, p. 23-40, Jul./Sept. 2010. Available at: <https://www.scielo.br/j/ac/a/WRRWcQRR5rfDsNFSCvGyhTk/?lang=pt&format=pdf>. Accessed on: 18 Aug. 2021.

FOGLIARINI, M. J. Technical and economic feasibility study of the implementation of a sorting and recycling plant for solid construction waste in the city of Ijuí-RS. Ijuí, 2018. Available at: <https://bibliodigital.unijui.edu.br:8443/xmlui/handle/123456789/5955>. Accessed on: 28 Nov. 2021.

FRANCISCO, A. R. V.; SILVA, F.; FARIAS, B.M.; PIRES, R. C. S. Control of solid waste from civil construction. In: PIRES, R. C. S.; ALMEIDA, I. S.; FARIAS, B.M. (Org.). Civil construction: engineering and innovation. Rio de Janeiro, RJ: Epitaya, 2020. vol. 4, chap. 3, p. 40-70. Available at: <https://portal.epitaya.com.br/index.php/ebooks/article/view/93/61>. Accessed on: 18 Aug. 2021.

JUAZEIRO DO NORTE. Complementary Law No. 85, of May 10, 2012. Creates, within the scope of the Municipality of Juazeiro do Norte, the Municipal Environmental Authority of Juazeiro do Norte - AMAJU, linked to the Secretariat of Environment, Agriculture and Public Services - SEMASP and gives other measures. Official Gazette of the Municipality, Executive Branch, Office of the Mayor, Juazeiro do Norte, CE, May 10, 2012. available at: <https://www.juazeirodonorte.ce.gov.br/_temporario/amaju/LEGISLACAO-MUNICIPAL- ENVIRONMENTAL/3-CRIACAO-DA-AMAJU/COMPLEMENTARY-LAW-N-85-DE-10-MAY-DE-2012--Cria-a-Amaju.pdf >. Accessed on: 30 Aug. 2021.

JUAZEIRO DO NORTE. Decree No. 219, of December 28, 2015. Provides for the approval of the Municipal Basic Sanitation Plan and approves the Management Planning of the Municipal Basic Sanitation Plan and establishes the Administrative Structure for the Implementation of the Municipal Basic Sanitation Plan. Official Gazette of the Municipality, Executive Power, Office of the Mayor, Juazeiro do Norte, CE, May 10, 2015 available at: <https://www.juazeirodonorte.ce.gov.br/arquivos/3279/DECRETO_219_2015_0000001.pdf>. Accessed on: 30 Dec. 2021.

JUAZEIRO DO NORTE. Decree No. 226, of January 21, 2016. Regulates Law No. 3689, of May 28, 2010 regarding the collection, storage, transport and final disposal of civil construction waste and other waste not covered by regular collection and gives other measures. No. 4179, Official Gazette of the Municipality, 25 jan. 2016. p. 1-5.

KLEPA, R.B. et al. Potential of reused civil construction waste to obtain raw material with characteristics of a photovoltaic cell. 2019. Thesis (Doctorate in Production Engineering) – University Ninth of July, São Paulo, 2019. Available at: <https://bibliotecatede.uninove.br/bitstream/tede/2229/2/Rogério%20Bonette%20Klepa.pdf >. Accessed on: 18 Aug. 2021.

LIMA, Francisco Mariano da Rocha de et al. The formation of urban mining in Brazil: CDW recycling and the production of aggregates. 2013. Doctoral Thesis. University of Sao Paulo. Available at: <https://www.teses.usp.br/teses/disponiveis/3/3134/tde-26122013-144341/pt-br.php>. Accessed on: 05 Dec. 2021.

MARQUES, H. F.; RIBEIRO, C. C.; OLIVEIRA, D. M.; BAMBERG, P. Reuse of construction waste: the practice of a recycling plant in the state of Paraná. Brazilian Journal of Development, Curitiba, v. 6, no. 4, p. 21912-21930, 2020. DOI 10.34117/bjdv6n4-383. Available at: <https://www.brazilianjournals.com/index.php/BRJD/article/view/9315/7860>. Accessed on: 18 Aug. 2021.

METAL DETECTOR. Magnetic separators - SM 1000. Available at: <https://metaldetektor.com.br/br/separacao-magnetica-sm1000>. Accessed on: 12 Dec. 2021.

MOURA, N. G.; JÚNIOR, J. F. L. Construction and demolition waste in Juazeiro do Norte-Ceará: a challenge to socio-environmental sustainability. Environmental Law and Society Magazine, v. 7, no. 3, p. 129-154, 2018. Available at: <http://www.ucs.br/etc/revistas/index.php/direitoambiental/article/view/4443>. Accessed on: 20 Aug. 2021.

ODEBRAZ. Continuous belt conveyor. Available at: <https://www.odebraz.com.br/transportador-continuo-correia>. Accessed on: 12 Dec. 2021.

ODEBRAZ. Vibrating screen for sale. Available at: <https://www.odebraz.com.br/peneira-vibratoria-a-venda>. Accessed on: 12 Dec. 2021.

OLIVEIRA, F.C. Recycling plant for civil construction and demolition waste: Feasibility analysis of implantation in the municipality of Ouro Preto. Dissertation (Professional Master in Environmental Socioeconomic Sustainability) – Federal University of Ouro Preto, Ouro Preto, 2020. Available at: <https://www.repositorio.ufop.br/bitstream/123456789/13189/1/DISSERTA%C3%87 %C3%83O_UsinaReciclagemRes%C3%ADduo.pdf>. Accessed on: 5 Dec. 2021

PASCHOALIN FILHO, J. A.; FRASSON, S.A.; CONTI, D. de M. Circular Economy: study of multiple cases in recycling plants in the management of construction waste. Development in Question, [S. l.], v. 17, no. 49, p. 136–157, 2019. DOI 10.21527/2237-6453.2019.49.136-157. Available in: <https://www.revistas.unijui.edu.br/index.php/desenvolvimentoemquestao/article/view/8216>. Accessed on: 18 Aug. 2021.

SALOMÃO, Pedro Emílio Amador et al. Reuse of waste generated by civil construction: a brief review. Research, Society and Development, vol. 8, no. 10, p. e268101366, 2019. Available at: <https://www.redalyc.org/jatsRepo/5606/560662201026/560662201026.pdf>. Accessed on: 18 Nov. 2021.

SEBRAE. Canvas: how to structure your business model. Available at: https://www.sebraepr.com.br/canvas-como-estruturar-seu-modelo-de-negocios/ access: 13 Dec. 2021

SEBRAE. Use the F.O.F.A matrix to correct deficiencies and improve the company. Available at: https://www.sebrae.com.br/sites/PortalSebrae/artigos/use-a-matriz-fofa-para-corrigir-deficiencias-e-melhorar-a-empresa,9cd2798be83ea410VgnVCM2000003c74010aRCRD accessed: 13 Dec. 2021

SEVERINO, A. J. Methodology of scientific work. São Paulo: Cortez, 2014.

SILVA, A. C.; FUCALE, S.; FERREIRA, S. R. M. Effect of addition of construction and demolition waste (CDW) on the hydromechanical properties of a sandy-clay soil. Materia Magazine, Rio de Janeiro, v. 24, no. 2, 2019. DOI 10.1590/S1517-707620190002.0670. Available at: <https://revistas.ufrj.br/index.php/rm/article/view/28995/16223>. Accessed on: 18 Aug. 2021.

SOBRAL, R. F. C. Economic viability of a civil construction waste recycling plant: a case study at USIBEN João Pessoa-PB. 2012. 117 f. Dissertation (Master in Urban Engineering) - Federal University of Paraíba, João Pessoa, 2012.

SOUZA, L. L..; LOBO, R. R..; MOREIRA, D. A.; BRITO, R.P.; PEREIRA JÚNIOR, A. Study of the technical feasibility of reuse of waste from civil construction and reform. Research, Society and Development, [S. l.], v. 10, no. 9, p. e20710917842, 2021. DOI: 10.33448/rsd-v10i9.17842. Available at: https://rsdjournal.org/index.php/rsd/article/view/17842. Accessed on: 27 Aug. 2021.

VASCONCELOS, K. B.; LEMOS, C. F. Apparent density of construction waste in Belo Horizonte – MG. In: Brazilian Congress of Environmental Management 6., 2015, Porto Alegre. Annals [...]. Porto Alegre: Brazilian Institute of Environmental Studies, 2015. Available at: <https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=&cad=rja&uact=8&ved=2ahUKEwihxPGg0uH0AhUprpUCHTaTD2QQFnoECAUQAw&url=https%3A %2F%2Fwww.ibeas.org.br%2Fcongresso%2FTrabalhos2015%2FXI-019.pdf&usg=AOvVaw231pDwxbb0Av0Lkc_TPyS3>. Access: 27 Aug. 2021.

YLS. Rubble shredders. Available at: <https://www.yls.net.br/trituradores2.html>. Accessed on: 10 Dec. 2021.

WEST. Easy-system impact crusher TIKM 0806. Available at: <https://westenge.com.br/portfolio/britador-de-impacto-facil-system-tikm-0806/>. Accessed on: 12 Dec. 2021.

WEST. Metso C80 jaw crusher. Available at: <https://westenge.com.br/portfolio/britador-de-mandibulas-metso-c80/>. Accessed on: 12 Dec. 2021.

WEST. Metso HP 100 cone crusher. Available at: <https://westenge.com.br/portfolio/britador-conico-metso-hp-100/>. Accessed on: 12 Dec. 2021.

TECHNICAL FEASIBILITY STUDY OF A CCW RECYCLING PLANT IN JUAZEIRO DO NORTE-CE