Março 2021 vol. 8 num. 1 - XXVIII SIMPÓSIO INTERNACIONAL DE ENGENHARIA AUTOMOTIVA
Artigo completo - Open Access.
Análise Cinemática para uma caixa de engrenagens planetárias aplicadas em veículos híbridos e elétricos
Kinematic Analysis for planetary gear box applied in hybrid and electric vehicle
Rocha, Caio Henrique Ferreira ; Eckert, Jony Javorski ; SIlva, Ludmila Corrêa de Alkmi ; Dedini, Franco Giuseppe Dedini ; Silva, Fabrício Leonardo ; Lourenço, Maria Augusta de Menezes ;
Artigo completo:
A maior parte dos mecanismos power-split para veículos híbridos e elétricos utiliza engrenagens planetárias como acoplamento por velocidade. Este paper estudará o comportamento cinemático deste tipo de acoplamento, realizando uma pesquisa em extensa liter
Artigo completo:
The majority of hybrid and electric vehicles are power-split hybrid vehicles using planetary gear as speed coupling. This paper will study the kinematic behavior of this type of coupling, using an extensive literature research about hybrid and electric ve
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DOI: 10.5151/simea2021-PAP115
Referências bibliográficas
- [1] M. Mace, “Mitigation Commitments under the Paris Agreement and the Way Forward,” Clim. Law, vol. 6, pp. 21–39, Jan. 2016.
- [2] C. A. Horowitz, “Paris Agreement,” Int. Leg. Mater., vol. 55, no. 4, pp. 740–755, 2016.
- [3] Eckert, J. J., Silva, L. C. A., Costa, E. S., Santiciolli, F. M., Corrêa, F. C. & Dedini, F. G (2019). Optimization of electric propulsion system for a hybridized vehicle. Mechanics Based Design of Structures and Machines, 47:2, 175-200.
- [4] Costa, E. S., Santiciolli, F. M., Eckert, J. J., Silva, L. C. A., Dionízio, H. J., Corrêa, F. C. & Dedini, F. J. (2014). Computational and Experimental Analysis of Fuel Consumption of a Hybridized Vehicle. SAE International, 2014-36-0385.
- [5] Cordera, R., dell’Olio, L., Ibeas, A., & Ortúzar, J. de D. (2019). Demand for environmentally friendly vehicles: A review and new evidence. International Journal of Sustainable Transportation, 13(3), 210–223.
- [6] Chiaradia, C. (2015). Estudo da viabilidade da implantação de frotas de veículos elétricos e híbridos elétricos no atual cenário econômico, político, energético e ambiental brasileiro. Aleph.
- [7] Du, M. & Yang, L. (2020). A basis for the computer-aided design of the topological structure of planetary gear trains. Mechanism and Machine Theory, 145 (2020) 103690.
- [8] Liu, C., Yin, X., Liao, Y., Yi, Y., & Qin, D. (2020). Hybrid dynamic modeling and analysis of the electric vehicle planetary gear system. Mechanism and Machine Theory, 150 (2020) 103860.
- [9] Pei, H., Hu, X., Yang, Y., Tang, X., Hou, C., Cao, D. (2018). Configuration optimization for improving fuel efficiency of power split hybrid powertrains with a single planetary gear. Applied Energy, 214 (2018) 103–116.
- [10] Sin, C. K., Ng, W. C., Tan, L. W., Ong, J. Q., & Chew, B. C. (2012). PESTLE Analysis on Toyota Prius. International Conference on Technology Management and Technopreneurship (ICTMT), 1–9.
- [11] Murphey, Y. L., Park, J., Chen, Z., Kuang, M. L., Masrur, M. A., & Phillips, A. M. (2012). Intelligent hybrid vehicle power control part I: Machine learning of optimal vehicle power. IEEE Transactions on Vehicular Technology, 61(8), 3519–3530.
- [12] M. Ehsani, Y. Gao, and A. Emadi, Modern Electric, Hybrid Electric, and Fuel Cell Vehicles., 3rd Editio. Boca Raton: CRC Press, 2018.
- [13] Liu, J., & Peng, H. (2008). Modeling and control of a power-split hybrid vehicle. IEEE Transactions on Control Systems Technology, 16(6), 1242–1251.
- [14] Zhang, X., Li, S. E., Peng, H., & Sun, J. (2016). Design of Multimode Power-Split Hybrid Vehicles - A Case Study on the Voltec Powertrain System. IEEE Transactions on Vehicular Technology, 65(6), 4790–4801.
- [15] Wang, L., Cui, Y., Zhang, F., & Li, G. (2020). Architectures of planetary hybrid powertrain system: Review, classification and comparison. Energies. MDPI AG.
- [16] Zhang, X., Li, C. T., Kum, D., & Peng, H. (2012). Prius + and volt -: Configuration analysis of power-split hybrid vehicles with a single planetary gear. IEEE Transactions on Vehicular Technology, 61(8), 3544–3552.
- [17] Amaral, Danilo, Methodology and Systematization of the Epicyclic Gear Trains Design With One and Two linked EGTs, Campinas. School of Mechanical Engineering, State University of Campinas, 2000. 150p. Thesis (Ph.D.)
- [18] Kabalan, B., Vinot, E., Yuan, C., Trigui, R., Dumand, C., & Hajji, T. E. (2019). Efficiency Improvement of a Series-Parallel Hybrid Electric Powertrain by Topology Modification. IEEE Transactions on Vehicular Technology, 68(12), 11523–11531.
- [19] Petrescu, R. V. V., Aversa, R., Apicella, A., & Petrescu, F. I. T. (2016). About the gear efficiency to a simple planetary train. American Journal of Applied Sciences, 13(12), 1428–1436.
- [20] Morais, Ricardo Ferrari de, Study of the Dynamic os Mechanical Transmissions using Planetary Gear Trains,Campinas. School of Mechanical Engineering, State University of Campinas, 2004. 99p. Dissertation.
- [21] Kouroussis, G., Dehombreux, P., & Verlinden, O. (2015). Vehicle and powertrain dynamics analysis with an automatic gearbox. Mechanism and Machine Theory, 83, 109–124.
- [22] Norton, R.L. Projeto de máquinas: uma abordagem teórica. 4th ed. Porto Alegre, 2013.
- [23] Toyota do Brasil Indústria e Comércio Ltda, “Toyota Corolla 2020 Technical Sheet,” 2020.
Como citar:
Rocha, Caio Henrique Ferreira; Eckert, Jony Javorski; SIlva, Ludmila Corrêa de Alkmi; Dedini, Franco Giuseppe Dedini; Silva, Fabrício Leonardo; Lourenço, Maria Augusta de Menezes; "Análise Cinemática para uma caixa de engrenagens planetárias aplicadas em veículos híbridos e elétricos", p. 475-485 . In: Anais do XXVIII SIMPÓSIO INTERNACIONAL DE ENGENHARIA AUTOMOTIVA.
São Paulo: Blucher,
2021.
ISSN 2357-7592,
DOI 10.5151/simea2021-PAP115
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