Blucher Engineering Proceedings

Março 2021, vol.8, num.1 - XXVIII SIMPÓSIO INTERNACIONAL DE ENGENHARIA AUTOMOTIVA
Artigo completo - Open Access Idioma principal | Segundo principal

Cilindros e anéis de um motor diesel pesado expostos ao biodiesel B15.

Heavy duty diesel engine Liners and rings exposed to B15 biodisel.

Salsamendi, Sergio; Bacco, Andre; Moreira, Heloísa Colli; Pintaude, Giuseppe; Cousseau, Tiago; Vasco, Marina Cardozo

Artigo completo:

Na busca por redução de atrito como estratégia para consequente redução de consumo e emissão de poluentes, duas linhas de pesquisa são apresentadas. Uma das linhas tem o objetivo de apresentar uma avaliação do comportamento tribológico de dois sistemas an

Looking for friction reduction as a strategy for the consequent reduction of consumption and emission of pollutants, two lines of research are presented. One of the lines has the objective of presenting an evaluation of the tribological behavior of two TL

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DOI: 10.5151/simea2021-PAP72

Referências bibliográficas
  • [1] 1. Petroleum., B. (2018). BP statistical review of world energy 2018. British Petroleum., pp. 1-52
  • [2] 2. ANP. (2019). http://www.anp.gov.br/producao-debiocombustiveis/ biodiesel/informacoes-de-mercado. Acesso em October de 2019, disponível em http://www.anp.gov.br.
  • [3] 3. Gaurav N, S. S. (2017). Utilization of bioresources for sustainable biofuels: A review. . Renewable and Sustainable Energy Reviews, November 2016, pp. 205-214 .
  • [4] 4. Surriya O, S. S. (2015). A blessing in disguise. In:Phytoremediation for Green Energy. Biofuels, 11-54.
  • [5] 5. Nigam PS, S. A. (2011). Production of liquid biofuels from renewable resources. Progress in Energy and Combustion Science., pp. 52-68.
  • [6] 6. Thiyagarajan S, E. G. (2017). Carbon dioxide (CO2) capture and sequestration using biofuels and an exhaust catalytic carbon capture system in a single cylinder CI engine: An experimental study. . Biofuels, pp. 1-10.
  • [7] 7. HOLMBERG, K. e. (2014). Global energy consumption due to friction in trucks and busses. Tribology International., 78, 94-114.
  • [8] 8. DOWSON, D., & TAYLOR, C. M. (1993). Engine Tribology. Leeds University.
  • [9] 9. Wieslaw Grabon a, P. P. (2018). Effects of cylinder liner surface topography on friction and wear of liner-ring. Tribology International, 121, 148–160.
  • [10] 10. Z Dimkovski1, E. T. (2018). Novel testing methods for screening the tribological performance of ring-liner surfaces. Surface Topography: Metrology and Properties. doi:https://doi.org/10.1088/2051-672X/aad408
  • [11] 11. Lubrizol. (October de 2013). https://www.lubrizol.com/. Acesso em 2019, disponível em
  • [12] https://www.lubrizol.com/en/Lubricant-and-Fuel-Additives/Engine-Oil-Additive
Como citar:

Salsamendi, Sergio; Bacco, Andre; Moreira, Heloísa Colli; Pintaude, Giuseppe; Cousseau, Tiago; Vasco, Marina Cardozo; "Cilindros e anéis de um motor diesel pesado expostos ao biodiesel B15.", p-318-327. In: Anais do XXVIII SIMPÓSIO INTERNACIONAL DE ENGENHARIA AUTOMOTIVA. São Paulo: Blucher, 2021.
ISSN 23577592, DOI 10.5151/simea2021-PAP72

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