Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode

Joshua Raj Kumar Aska; K. A. Subramanian

doi:10.30939/ijastech..1000258

Research Article

Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode

Year 2022, , 294 - 301, 03.10.2022

Joshua Raj Kumar Aska K. A. Subramanian

https://doi.org/10.30939/ijastech..1000258

Abstract

This study deals with the effects on power and torque of a tracked automotive diesel vehicle under parallel hybrid mode(Internal Combustion Engine (ICE) and Electric System). A methodology is developed to assess the performance of the hybrid vehicle. The tractive force requirement of the vehicle to achieve maximum speed (0 to 65 km/h in 61s) is simulated and validated with available data in literature. The simulation with different hybrid configurations such as Electric Motor (EM) before transmission (Mode 1) and EM after transmission (Mode 2) is carried out for assessment of better performance of the hybrid system. The Degree of Hybridization (DoH) for enhanced power and torque output is analysed with inputs of different Electric Motor (EM) ratings(22 kW and 50 kW power with 72.5 N-m and 167 N-m of torque respectively) and the base ICE’s power (221 kW) and torque (1030 N-m). The analysis indicates that Power and torque of the hybrid system (ICE and 50kW EM) is significantly improved to 290 kW and 1274 N-m. The Power & Torque of the hybrid system with 22kW and 50kW EM in Mode 2 configuration (5th gear with ratio 4.24 : 1) could be enhanced by 22% and 38% power output improvement (11% and 24% Torque improvement) with 17.3% and 32.3% DoH respectively.

Keywords

DoH, EM, ICE, Power, Torque, Tractive Force

References

[1] P. Sivakumar, Rajaseeli Reginald, G. Venkatesan, Hari Viswanath, and T. Selvathai. Configuration Study of Hybrid Electric Power Pack for Tracked Combat Vehicles. Defence Science Journal, Vol. 67 No. 4, July 2017.
[2] Hidetaka Taira, Takeshi Yoshikawa and Koki Jumonji. Development of Tracked Combat Hybrid-Electric Vehicle. Mobility Research Division, Ground Systems Research Center, Acquisition, Technology and Logistics Agency, Ministry of Defense of Japan.
[3] Travis E. McWhirter, Torrey J. Wagner, John E. Stubbs, Denise M. Rizzo and Jada B. Williams. Tracked vehicle physics-based energy modelling and series hybrid system optimisation for the Bradley fighting vehicle. Air Force Institute of Technology (AFIT) USA, 2020.
[4] M. Ali, H. Kamel, A. M. Sharaf and S. A. Hegazy. Modelling and Simulation of Hybrid Electric Vehicles. Proceedings of the 16th International AMME Conference, 27-29 May 2014.

Year 2022, , 294 - 301, 03.10.2022

Joshua Raj Kumar Aska K. A. Subramanian

https://doi.org/10.30939/ijastech..1000258

Abstract

References

[1] P. Sivakumar, Rajaseeli Reginald, G. Venkatesan, Hari Viswanath, and T. Selvathai. Configuration Study of Hybrid Electric Power Pack for Tracked Combat Vehicles. Defence Science Journal, Vol. 67 No. 4, July 2017.
[2] Hidetaka Taira, Takeshi Yoshikawa and Koki Jumonji. Development of Tracked Combat Hybrid-Electric Vehicle. Mobility Research Division, Ground Systems Research Center, Acquisition, Technology and Logistics Agency, Ministry of Defense of Japan.
[3] Travis E. McWhirter, Torrey J. Wagner, John E. Stubbs, Denise M. Rizzo and Jada B. Williams. Tracked vehicle physics-based energy modelling and series hybrid system optimisation for the Bradley fighting vehicle. Air Force Institute of Technology (AFIT) USA, 2020.
[4] M. Ali, H. Kamel, A. M. Sharaf and S. A. Hegazy. Modelling and Simulation of Hybrid Electric Vehicles. Proceedings of the 16th International AMME Conference, 27-29 May 2014.

There are 4 citations in total.

Details

Primary Language	English
Subjects	Mechanical Engineering
Journal Section	Articles
Authors	Joshua Raj Kumar Aska This is me 0000-0003-3503-4406 K. A. Subramanian 0000-0003-2610-9680
Publication Date	October 3, 2022
Submission Date	September 26, 2021
Acceptance Date	August 24, 2022
Published in Issue	Year 2022

Cite

APA	Aska, J. R. K., & Subramanian, K. A. (2022). Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode. International Journal of Automotive Science And Technology, 6(3), 294-301. https://doi.org/10.30939/ijastech..1000258
AMA	Aska JRK, Subramanian KA. Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode. IJASTECH. October 2022;6(3):294-301. doi:10.30939/ijastech.1000258
Chicago	Aska, Joshua Raj Kumar, and K. A. Subramanian. “Study of Performance Improvement of a Tracked Vehicle Engine With Hybrid Mode”. International Journal of Automotive Science And Technology 6, no. 3 (October 2022): 294-301. https://doi.org/10.30939/ijastech. 1000258.
EndNote	Aska JRK, Subramanian KA (October 1, 2022) Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode. International Journal of Automotive Science And Technology 6 3 294–301.
IEEE	J. R. K. Aska and K. A. Subramanian, “Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode”, IJASTECH, vol. 6, no. 3, pp. 294–301, 2022, doi: 10.30939/ijastech..1000258.
ISNAD	Aska, Joshua Raj Kumar - Subramanian, K. A. “Study of Performance Improvement of a Tracked Vehicle Engine With Hybrid Mode”. International Journal of Automotive Science And Technology 6/3 (October 2022), 294-301. https://doi.org/10.30939/ijastech. 1000258.
JAMA	Aska JRK, Subramanian KA. Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode. IJASTECH. 2022;6:294–301.
MLA	Aska, Joshua Raj Kumar and K. A. Subramanian. “Study of Performance Improvement of a Tracked Vehicle Engine With Hybrid Mode”. International Journal of Automotive Science And Technology, vol. 6, no. 3, 2022, pp. 294-01, doi:10.30939/ijastech. 1000258.
Vancouver	Aska JRK, Subramanian KA. Study of Performance Improvement of a Tracked Vehicle Engine with Hybrid Mode. IJASTECH. 2022;6(3):294-301.