Actions and policies to reduce CO2 emission in Brazilian freight transportation
DOI:
https://doi.org/10.58922/transportes.v31i2.2415Keywords:
Green logistics, Transport planning, CO2 emission, Environmental policiesAbstract
Two aspects are becoming increasingly critical in transport systems planning: the energy performance of transport and the emission of CO2. Interregional cargo transportation is one of the most important CO2 emitting in the transport sector of Brazil, due to the large amount of cargo that needs to be transported over long-distance routes, in the huge part by trucks due to the scarcity of multimodal infrastructure. It is widely known that the road transport mode presents high diesel consumption and CO2 emissions per tonne of cargo transported. If the country does not implement actions and policies aiming to mitigate CO2 emissions, eventually, the freight transportation will significantly increase its environmental impact, worsening the greenhouse effect and climate change, and preventing the country from reaching its CO2 reduction goal agreement made during COP21. In view of this, this article aims to make an exploratory analysis of the main recommended actions and policies to reduce CO2 emissions from cargo transportation in Brazil and to quantitatively measure their impacts. The results reveal that the recommended actions have the potential to reduce 39% of the annual CO2 emission in 2025 in the country, which means avoiding the emission of 43 million tons of CO2 per year in freight transportation. Also, the suggested actions and policies could provide important economic gains, which makes the projects attractive for private investments, which means they could be implemented with little use of public funding.
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References
Agência Nacional de Transportes Terrestres – ANTT (2020a) Política Nacional de Pisos Mínimos de Frete. Disponível em: <https://www.gov.br/antt/pt-br/assuntos/cargas/politica-nacional-de-pisos-minimos-de-frete> (acesso em 08/04/2023).
Agência Nacional de Transportes Terrestres – ANTT (2020b) RNTRC em Números. Disponível em: <https://www.gov.br/antt/pt-br/assuntos/cargas/rntrc-1/rntrc-em-numeros> (acesso em 08/04/2023).
Associação Brasileira de Biogás – ABIOGÁS (2023) Potencial de Biogás no Brasil. Disponível em: <https://abiogas.org.br/potencial-do-biogas-no-brasil> (acesso em 08/04/2023).
Associação Nacional dos Fabricantes de Veículos Automotores – ANFAVEA (2020) Anuário da Indústria Automobilística Brasileira. São Paulo: ANFAVEA. Disponível em: <http://www.anfavea.com.br/anuario2020/anuario.pdf> (acesso em 08/04/2023).
Bartholomeu, D.B. e J.V. Caixeta Filho (2009) Quantification of the environmental impacts of road conditions in Brazil. Ecological Economics, v. 68, n. 6, p. 1778-1786. DOI: 10.1016/j.ecolecon.2008.11.009. DOI: https://doi.org/10.1016/j.ecolecon.2008.11.009
Bartholomeu, D.B.; T.G. Péra e J.V. Caixeta-Filho (2016) Logística sustentável: avaliação de estratégias de redução das emissões de CO2 no transporte rodoviário de cargas. Journal of Transport Literature, v. 10, n. 3, p. 15-19. DOI: 10.1590/2238-1031.jtl.v10n3a3. Black, W.R. (1996) Sustainable transportation: a US perspective. Journal of Transport Geography, v. 4, n. 3, p. 151-159. DOI: 10.1016/0966-6923(96)00020-8. DOI: https://doi.org/10.1590/2238-1031.jtl.v10n3a3
Branco, J.E.H.; D.B. Bartholomeu; P.N. Alves Jr. et al. (2022) Evaluation of the economic and environmental impacts from the addition of new railways to the brazilian’s transportation network: an application of a network equilibrium model. Transport Policy, v. 124, p. 61-9. DOI: 10.1016/j.tranpol.2020.03.011. DOI: https://doi.org/10.1016/j.tranpol.2020.03.011
Branco, J.E.H.; J.V. Caixeta-Filho; A.H. Gameiro et al. (2011) Otimização logística para o transporte multimodal de safras agrícolas pelo corredor centro-norte: o que pensam as empresas e instituições envolvidas? Amazônia: Ciência e Desenvolvimento, v. 6, n. 12, p. 143-159.
Brasil, Ministério da Agricultura e Pecuária (2019a) Programa Nacional de Produção e Uso do Biodiesel (PNPB). Disponível em: <https://www.gov.br/agricultura/pt-br/assuntos/mda/biodiesel/programa-nacional-deproducao-e-uso-do-biodiesel-pnpb> (acesso em 08/04/2023).
Brasil, Ministério da Infraestrutura (2020) Política de Concessões: Rio, Terra, Céu e Mar. Disponível em: <https://www.gov.br/infraestrutura/pt-br/assuntos/concessoes/projetos> (acesso em 08/04/2023).
Brasil, Ministério da Infraestrutura, Empresa de Planejamento e Logística – EPL (2019b) Diagnóstico Logístico – 2010- 2018. Brasília: EPL. Disponível em: <https://ontl.infrasa.gov.br/publicacoes/diagnostico-logistico/#:~:text=Diagn%C3%B3stico%20Log%C3%ADstico%20%E2%80%93%202010%20a%202018&text=E sta%20consolida%C3%A7%C3%A3o%20propicia%20condi%C3%A7%C3%B5es%20de,temporal%20de%20201 0%20%C3%A0%202018> (acesso em 08/04/2023).
Canada (2019) Transportation 2030: Green and Innovative Transportation. Disponível em: <https://tc.canada.ca/en/corporate-services/transportation-2030-green-innovative-transportation> (acesso em 08/04/2023).
Chang, Q. e R. Qin (2009) Analysis on development path of Tianjin green logistics. International Journal of Business and Management, v. 3, n. 9, p. 96-98. DOI: 10.5539/ijbm.v3n9p96. DOI: https://doi.org/10.5539/ijbm.v3n9p96
Confederação Nacional do Transporte – CNT (2018) Boletim Estatístico CNT. Brasília: CNT. Confederação Nacional do Transporte – CNT (2020) Anuáro CNT do Transporte 2020: Estatísticas Consolidadas. Disponível em: <https://anuariodotransporte.cnt.org.br/2022/Anuarios> (acesso em 08/04/2023).
Costa, D. (2020) Gás: nova porta se abre ao transporte de carga., Estadão, 27 de abril de 2020. Disponível em: <https://mobilidade.estadao.com.br/inovacao/gas-nova-porta-se-abre-ao-transporte-de-carga/> (acesso em 08/04/2023).
Departamento Nacional de Infraestrutura de Transportes – DNIT (2020) Quadro de Fabricanes de Veículos. Brasília: DNIT. Disponível em: <https://www.gov.br/dnit/pt-br/rodovias/operacoesrodoviarias/pesagem/copy2_of_QFV2021OUTUBRO.pdf> (acesso em 08/04/2023).
Empresa de Planejamento e Logística – EPL (2018) Plano Nacional de Logística e Transportes - PNL 2025. Disponível em: <https://portal.epl.gov.br/plano-nacional-de-logistica-2025> (acesso em 08/04/2023).
Energia Hoje (2020) Geração de Biogás Cresceu 36% em 2019. Disponível em: <https://energiahoje.editorabrasilenergia.com.br/geracao-de-biogas-cresceu-36-em-2019/> (acesso em 08/04/2023).
European Automobile Manufacturers Association – ACEA (2019) High Capacity Transport: Smarter Policies for Smart Transport Solutions. Bruxelas: ACEA. Disponível em: <https://www.acea.be/uploads/publications/ACEA_PaperHigh_Capacity_Transport.pdf> (acesso em 08/04/2023).
European Comission – EC (2011) White Paper: Roadmap to a Single European Transport Area – Towards a Competitive and Resource Efficient Transport System. Disponível em: <https://www.eea.europa.eu/policydocuments/roadmap-to-a-single-european> (acesso em 08/04/2023).
European Comission – EC (2014) Well-to-Wheels Analysis of Future Automotive Fuels and Powertrains in the European Context. Disponível em: <https://op.europa.eu/en/publication-detail/-/publication/1cffb832-f2bc42df-9dc2-59db08e24eee/language-en> (acesso em 08/04/2023).
Financiadora de Estudos e Projetos – FINEP (2009) PSI - Programa de Sustentação do Investimento. Disponível em: <http://www.finep.gov.br/afinep/213-fontes-de-recurso/outras-fontes/psi-programa-de-sustentacao-doinvestimento/38-psi-programa-de-sustentacao-do-investimento> (acesso em 08/04/2023).
INFRA (2018) Futuro Ministro Recebe Lista com 103 Projetos de Transportes de R$ 93 bi em Investimentos. Disponível em: <https://www.agenciainfra.com/blog/futuro-ministro-recebe-lista-com-103-projetos-detransportes-de-r-93-bi-em-investimenos/> (acesso em 08/04/2023).
International Railway Association – UIC (2015) Rail Transport and Envoironment - Facts & Figures. Paris: UIC. Disponível em: <https://uic.org/IMG/pdf/facts_and_figures_2014_v1.0-2.pdf> (acesso em 08/04/2023).
Liimatainen, H.; O. van Vliet e D. Aplyn (2019) The potential of electric trucks – an international commodity-level analysis. Applied Energy, v. 236, p. 804-814. DOI: 10.1016/j.apenergy.2018.12.017. DOI: https://doi.org/10.1016/j.apenergy.2018.12.017
Macharis, C.; S. Melo; J. Woxenius et al. (2014) Sustainable Logistics. Bingley: Emerald Group Publishing Limited. DOI: 10.1108/S2044-994120140000006022. DOI: https://doi.org/10.1108/S2044-994120140000006022
McKinnon, A.; S. Cullinane; M. Browne et al. (2010) Green Logistics. Improving the Environmental Sustainability of Logistics. Londres: Kogan Page. Disponível em: <https://ftp.idu.ac.id/wpcontent/uploads/ebook/ip/LOGISTIK/document%20(9).pdf> (acesso em 08/04/2023).
Mehra, S. e S. Verma (2016) Smart Transportation - Transforming Indian Cities: Transportation Sector Reforms and Developments in India. Nova Déli: Grant Thornton. Disponível em: <https://www.grantthornton.in/globalassets/1.-member-firms/india/assets/pdfs/smart-transportationreport.pdf> (acesso em 08/04/2023).
Péra, T.G.; D.B. Bartholomeu; C.T. Su et al. (2019) Evaluation of green transport corridors of Brazilian soybean exports to China. Brazilian Journal of Operations & Production Management, v. 16, n. 3, p. 398-412. DOI: 10.14488/BJOPM.2019.v16.n3.a4. DOI: https://doi.org/10.14488/BJOPM.2019.v16.n3.a4
Railenergy (2020) Project Targets. Disponível em: <http://www.railenergy.org/targets.shtml> (acesso em 08/04/2023).
Ramos, A. (2019) Caminhões elétricos cada vez mais reais., Estadão, 28 de novembro de 2019. Disponível em: <https://estradao.estadao.com.br/caminhoes/caminhao-eletrico-cada-vez-mais-reais/> (acesso em 08/04/2023).
Retzer, S. (2019) China Transport Policy Briefing: The Monthly Update of GIZ in China. Pequim: Deutsche Gesellschaft für Internationale Zusammenarbeit. Disponível em: <https://transition-china.org/wpcontent/uploads/2021/02/2018_06_PolicyBriefing.pdf> (acesso em 08/04/2023).
Ricardo Energy & Environment (2016) The Role of Natural Gas and Biomethane in the Transport Sector. Shoreham-bySea: Ricardo Energy & Environment. Disponível em: <https://www.transportenvironment.org/wpcontent/uploads/2021/07/2016_02_TE_Natural_Gas_Biomethane_Study_FINAL.pdf> (acesso em 08/04/2023).
Ricardo Energy & Environment (2017) Heavy Duty Vehicles Technology Potential and Cost Study. Shoreham-by-Sea: Ricardo Energy & Environment. Disponível em: <https://theicct.org/sites/default/files/publications/HDVTechnology-Potential-and-Cost-Study_Ricardo_Consultant-Report_26052017_vF.pdf> (acesso em 08/04/2023).
Russia, Russian Ministry of Transport (2014) On Approving a New Version of the Transport Strategy of the Russian Federation up to 2030. Disponível em: <http://government.ru/en/dep_news/13191/> (acesso em 08/04/2023).
Transport & Environment (2017) Truck Fuel Consumption Could Be Cut by One Third in 10 Years - Research. Disponível em: <https://www.transportenvironment.org/discover/truck-fuel-consumption-could-be-cut-onethird-10-years-research/#:~:text=May%2029%2C%202017- ,Truck%20fuel%20consumption%20could%20be%20cut%20by%20one%20third%20in,%2C%20a%20consulta ncy%2C%20has%20found.> (acesso em 08/04/2023).
Transport Policy Net (2019) Regions China. Disponível em: <https://www.transportpolicy.net/region/asia/china/> (acesso em 08/04/2023).
Trofimenko, Y.; V. Komkov e V. Donchenko (2018) Problems and prospects of sustainable low carbon development of transport in Russia. IOP Conference Series. Earth and Environmental Science, v. 177, p. 012014. DOI: 10.1088/1755- 1315/177/1/012014. DOI: https://doi.org/10.1088/1755-1315/177/1/012014
United Nations University – UNU (2015) This 100 Percent Electric Eighteen-Wheeler Just Hit the Road in Germany. Disponível em: <https://ourworld.unu.edu/en/this-100-percent-electric-eighteen-wheeler-just-hit-the-road-ingermany> (acesso em 08/04/2023).
Universidade Estadual de Campinas – UNICAMP (2019) Unicamp, Nissan e o Carro Movido com Eletricidade Gerada por Etanol. Disponível em: <https://www.unicamp.br/unicamp/noticias/2019/04/26/unicamp-nissan-e-o-carromovido-com-eletricidade-gerada-por-etanol> (acesso em 08/04/2023).
Zhao, P.; J. Liu e L. He (2009) Study on the development of modern green logistics in China. In Wang, B. e Q. Luo (eds.) 2009 International Conference on Innovation Management. Nova York: IEEE, p. 43-46. DOI: 10.1109/ICIM.2009.17. DOI: https://doi.org/10.1109/ICIM.2009.17
Zhou, J. (2012) Sustainable transportation in the US: a review of proposals, policies, and programs since 2000. Frontiers of Architectural Research, v. 1, n. 2, p. 150-165. DOI: 10.1016/j.foar.2012.02.012. DOI: https://doi.org/10.1016/j.foar.2012.02.012
Zubedi, A.; Z. Jianqiu; Q.A. Arain et al. (2018) Sustaining low-carbon emission development: an energy efficient transportation plan for CPEC. Journal of Information Processing Systems, v. 14, n. 2, p. 322-45.
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Copyright (c) 2023 José Eduardo Holler Branco, Daniela Bacchi Bartholomeu, Paulo Nocera Alves Junior, José Vicente Caixeta Filho
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