Social sustainability in rail transport

Literature review

Authors

DOI:

https://doi.org/10.46421/entac.v20i1.6183

Keywords:

Sustainability, Rail transport, Systematic review

Abstract

Public policy makers and researchers have long been struggling to find alternative, sustainable means of transportation. This research proposes to evaluate the current state of rail transport, regarding social sustainability engagement. The main data gathering technique used in this research was systematic literature review. Based on this method, fifteen articles published from 2017 to 2023 have been selected, which allowed to assess them in sections. As a result, this research has led to conclude that social sustainability represents the latest emergent keyword in the evaluation of rail transport, and it has lately been taken more seriously into account, especially in developed countries, such as United Kingdom, USA and China, but it still lacks a significant number of studies on the social life cycle of this transport mode. This dataset exposes a few gaps, notably the lack of research on the categories and subcategories of concerned parties in the assessment of the social impacts of rail transport projects.

Author Biographies

Fabriccio de Almeida Oliveira, Programa de Pós-Graduação em Engenharia Civil (PPGEC). Universidade Federal do Pará (UFPA)

Doutorando do curso de Pós Graduação em Engenharia Civil da Universidade Federal do Pará

Wylliam Bessa Santana, Instituto Federal do Pará

Doutor em Engenharia Civil pela Universidade Federal do Pará

Professor do Instituto Federal do Pará

Professor do Programa de Pós-Graduação em Engenharia de Infraestrutura e Desenvolvimento Energético

Luiz Maurício Furtado Maués, Programa de Pós-Graduação em Engenharia Civil (PPGEC). Universidade Federal do Pará (UFPA)

Doutor em Engenharia Civil pela Universidade Federal do Pará

Professor associado 4 da Universidade Federal do Pará

Professor da Pós Graduação em Engenharia Civil da Universidade Federal do Pará

References

ELLRAM, L. M.; GOLICIC, S. L. Adopting environmental Transp transportation practices. J., 54 ) , 55-88, 2015.

Comissão Europeia (UE). A European strategy for low-carbon mobility. COM(2016) 501, 2016.

SHI, J.; ZHOU, N. A quantitative approach to evaluating investments in transport projects with aspects of equity and efficiency Res. Transp. Economia., 36 (1), 93 – 100, 2012.

KUMAR, A.; ANBANANDAM, R. Development of social sustainability index for freight transportation system. J. Limpo. Prod. 210,77 – 92, 2019.

STEFANIEC, A.; HOSSEINI, K.; ASSANI, S.; HOSSEINI, S. M.; LI, Y. Social sustainability of regional transportation: An assessment framework with application to EU road transport. Planeje. Ciência. 78, 2021.

V. Fulzele , R. Shankar. Performance measurement of sustainable freight transportation: a consensus model and FERA approach Ann. Oper. Res., 2021.

NATHANAIL, E.; KARAKIKES, I.; MITROPOULOS, L.; ADAMOS, G. A cross-sectional sustainability assessment of urban logistics solutions a case study. Transp. Política, 9, 219-240, 2021.

DK PATHAK , R. SHANKAR , A. Choudhary. Performance assessment framework based on competitive priorities for sustainable freight transport systems.Transp. Res. Parte Transp. Meio Ambiente., 90, 2021.

TO, W.M.; LEE, P.K.C.; YU, B.T.W. Sustainability assessment of an urban rail system – the case of Hong Kong. J. Clean. Prod., 253, 2020.

WIEGMANS, B.; JANIC, M.;. Analysis, modeling, and assessing performances of supply chains served by long-distance freight transport corridors. Int. J. Sustain. Transp., 13, 278-293, 2019.

STEG, L.; GIFFORD, R. Sustainable transportation and quality of life. J. Transport Geogr., 13 ), 59-69, 2005.

BRINER, R. B.; DENYER, D. Systematic review and evidence synthesis as a practice and scholarship tool. In: ROUSSEAU, D. M. (Ed.). Handbook of evidence-based management: companies, classrooms, and research. New York: Oxford University Press, 328- 374, 2012.

ALMEIDA, E. L. G.; PICCHI, F. A. Relação entre construção enxuta e sustentabilidade. Ambiente Construído, v. 18, n. 1, p. 91–109, 2018.

SAIEG, P. et al. Interactions of Building Information Modeling, Lean and Sustainability on the Architectural, Engineering and Construction industry: A systematic review. Journal of Cleaner Production, 174, 788–806, 2018.

ZHAO, X.; KE, Y.; ZUO, J. et al. Avaliação da pesquisa em transporte sustentável em 2000–2019. J Clean Prod, 256:120404, 2020.

H.P. Yuan. Achieving sustainability in railway projects: major stakeholder concerns Proj. Manag. J., 48 (5) (2017), pp. 115-132

W.M. To, P.K.C. Lee, B.T.W. Yu. Sustainability assessment of an urban rail system – the case of Hong Kong. J. Clean. Prod., 253, 2020.

XINYU, L.; SCHRAVEN, D.; BRUIJNE, M.; JONG, M.; HERTOGH, M. "Navigating Transitions for Sustainable Infrastructures—The Case of a New High-Speed Railway Station in Jingmen, China". Sustainability, 11, 15, 4197, 2019.

Moradi, S.; Sierpiński, G.; Masoumi, H. System dynamics modeling and fuzzy MCDM approach as support for assessment of sustainability management on the example of transport sector company. Energies 2022, 15, 4917

GULCIMEN, S.; AYDOGAN, E. K; UZAL, N. Life cycle sustainability assessment of a light rail transit system: Integration of environmental, economic, and social impacts. Avaliação e Gestão Ambiental Integrada , 17 (5), 2021.

GANDHI, N.; KANT, R.; THAKKAR, J. Sustainable performance assessment of rail freight transportation using triple bottom line approach: An application to Indian Railways. Política de Transportes, 128, 2022.

Venezia, E. Cost–Benefit Analysis in High-Speed Railway Projects: Appraisal of Methodological Approaches and an Initial Social Equity Evaluation, A Case Study. Sustainability, 15, 11344, 2023.

Sagaris, L., & Arora, A. Evaluating how cycle-bus integration could contribute to “sustainable” transport. Research in Transportation Economics, 59, 218–227, 2016.

BLACK, J. A.; PAEZ, A.; SUTHANAYA, P. A. Transporte urbano sustentável: Indicadores de desempenho e algumas abordagens analíticas . Revista de Planejamento e Desenvolvimento Urbano, 128 (4), 184-209, 2002.

Sato, FEK, Furubayashi, T. e Nakata, T. Aplicação de avaliações de redução de energia e CO 2 para reciclagem de veículos em fim de vida no Japão . Energia Aplicada , 237 , 779-794, 2019.

Agaton, CB , Collera, AA e Guno, CS . Análises socioeconômicas e ambientais do transporte público sustentável nas Filipinas. Sustentabilidade-Basel, 12 (11), 4720, 2020.

KENNEDY, C. A. A comparison of the sustainability of public and private transportation systems: Study of the Greater Toronto Area. Transportation, 29(4), 459–493, 2002.

Comissão Europeia Transportes na UE em números – statistical pocketbook, EU transport in numbers, 2015.

N. GANDHI, R. Kant, J. THAKKAR. A systematic scientometric review of sustainable rail freight transportation Environ. Sci. Pollut. Res., 2022

GARG, C.P., KASHAV, V. Assessment of Sustainable Initiatives in the Containerized Freight Railways of India using Fuzzy AHP Framework. Transp. Res. Procedia, Recent Advances and Emerging Issues in Transport Research – An Editorial Note for the Selected Proceedings of WCTR 2019 Mumbai 48, 522–539, 2020.

A. GÖÇER , Ö. ÖZPEYNIRCI , M. Semiz Desenvolvimento de políticas orientadas pelo índice de desempenho logístico: uma aplicação à Turquia Pol Transportes, 2021.

E. NATHANAIL , I. KARAKIKES , L. MITROPOULOS , G. Adamos Uma avaliação transversal de sustentabilidade de soluções logísticas urbanas Caso Stud. Transp. Política, 9, 219-240, 2021.

A. KUMAR , R. ANBANANDAM. Assessment of the environmental and social sustainability performance of the freight transport industry: an approach based on Pol Transportes indices, 2020.

UNEP/SETAC. Life cycle initiative. Guidelines for social life cycle assessment of products. United Nations Environment Programme. Social and sócio-economic LCA guidelines. 2009.

ISO 14044 Gestão Ambiental - Avaliação do ciclo de vida - Requisitos e diretrizes (2006).

PNUMA – Programa das Nações Unidas para o Meio Ambiente. Concentração global de CO2 bate recorde mesmo durante crise da COVID-19. Nairobi: PNUMA, 11 mai. 2020. Disponível em: https://www.unep.org/pt-br/noticias-e-reportagens/reportagem/concentracao-global-de-co2-bate-recorde-mesmo-durante-crise-do . Acesso em: 18 de mar. de 2023.

UNEP-SETAC. The methodology sheets for subcategories in social life cycle assessment(S-LCA). https://www.lifecycleinitiative.org/wp-content/uploads/2013/11/S-LCA_methodological_sheets_11.11.13.pdf. Accessed March 13, 2023.

Garza-Reyes, J. Lean and green – a systematic review of the state of the art of literature. J Clean Prod 102:18–29, 2015.

ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR CB-02: Projeto de estruturas de aço e de estruturas mistas de aço e concreto de edificações com perfis tubulares. Rio de Janeiro, 2011.

LEWIN, R. Complexity: life at the edge of chaos. 2. ed. Chicago: University of Chicago Press, 2000.

EASTMAN, C.; TEICHOLZ, P.; SACKS, R.; LISTON, K. BIM Handbook: a guide to building information modeling for owners, managers, designers, engineers and contractors. 2. ed. Nova Iorque: John Wiley & Sons, 2011.

KOLAREVIC, B.; MALKAWI, A. M. (Ed.). Performative Architecture Beyond Instrumentality. Nova Iorque: Spon Press, 2005.

EISENMAN, P. Visions unfolding: architecture in the age of electronic media. In: NESBITT, K. Theorizing a New Agenda for Architecture. 2. ed. Nova Jersey: Princeton Architectural Press, 1996. p. 556-561.

FASOULAKI, E. Integrated design: a generative multi-performative design approach. 2008. 72 f. Dissertação (Mestrado em Architecture Studies) – Massachusetts Institute of Technology, Boston, 2008.

KILIAN, A. Design explorations through bidirectional modeling of constraints. 2006. 325 f. Tese (Doutorado em Philosophy in Architecture Design and Computation) – Massachusetts Institute of Technology, Boston, 2006.

FISCHER, T.; BURRY, M.; FRAZER, J. Triangulation of generative form for parametric design and rapid prototyping. Automation in Construction, v. 14, n. 2, p. 233-240, mar. 2005. DOI: https://doi.org/10.1016/j.autcon.2004.07.004

FISCHER, T. Generation of Apparently Irregular Truss Structures. In: INTERNATIONAL CONFERENCE ON COMPUTER AIDED ARCHITECTURAL DESIGN FUTURES, 11., 2005, Viena. Proceedings [...] Viena: Vienna University of Technology, 2005. p. 229-238.

GORDON, D. The emergent genius of ant colonies. Ted Talks: ideas worth spreading. The Emergent Genius of Ant Colonies. 2003. Disponível em: http://www.ted.com/. Acesso em: 12 setembro 2013.

Published

2024-10-07

How to Cite

OLIVEIRA, Fabriccio de Almeida; SANTANA, Wylliam Bessa; MAUÉS, Luiz Maurício Furtado. Social sustainability in rail transport: Literature review. In: NATIONAL MEETING OF BUILT ENVIRONMENT TECHNOLOGY, 20., 2024. Anais [...]. Porto Alegre: ANTAC, 2024. p. 1–14. DOI: 10.46421/entac.v20i1.6183. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/6183. Acesso em: 22 nov. 2024.

Similar Articles

<< < 20 21 22 23 24 25 26 27 28 29 > >> 

You may also start an advanced similarity search for this article.