Review

A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems

Volume: 16 Number: 1 January 31, 2024
EN TR

A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems

Abstract

Today, the increase in energy needs and the risk of depletion of some energy resources is a worrying situation for sustainable life. Therefore, energy efficiency and prevention of energy losses are crucial. Transportation is one of the sectors where energy is used most intensively. As in every field, it is aimed to prevent the excessive use of energy in this sector. One of the most important activities in this regard is to encourage public transportation, and in this sense, rail systems are frequently preferred in big cities. However, their energy consumption is increasing due to the increasingly widespread network structure of these systems. Therefore, energy efficiency studies on these systems have a significant impact on clean and sustainable life and attract the attention of researchers. Energy efficiency studies in rail systems show a wide variety due to their complicated structure. In this paper, the concepts of energy consumption and efficiency in rail systems, studies on this subject in the literature and the technologies and methods used have been examined. The outputs of the paper have been evaluated in terms of energy efficiency and an assessment have been made for the future.

Keywords

Rail transportation, Energy consumption, Energy management, Energy Efficiency, Cost

References

  1. Açıkbaş, S. & Söylemez, M.T. (2004). Energy loss comparison between 750 VDC and 1500 VDC power supply systems using rail power simulation. Computers in Railways IX, WIT Press, 2004.
  2. Açıkbaş, S. & Söylemez, M.T. (2005). Energy efficiency and parallelization of catenary systems in rail public transportation. I. Energy Efficiency and Quality Symposium, Kocaeli.
  3. Albrecht, T. (2004). Reducing power peaks and energy consumption in rail transit systems by simultaneous train running time control. Computers in Railways IX, 74(10): 885-894, 2004. doi:10.2495/CR040881.
  4. Alekseeva, T.L., Ryabchyonok, N.L., Astrakhancev, L.A,, Mihalchuk N.L.& Tikhomirov, V.A. (2021). Improving the efficiency of the railway electric power system. IOP Conference Series: Materials Science and Engineering,1151, 2021.
  5. Alfieri, L., Battistelli, L. & Pagano, M. (2019). Impact on railway infrastructure of wayside energy storage systems for regenerative braking management: A case study on a real Italian railway infrastructure. IET Electrical Systems in Transportation, 9(3):140-149. doi: 10.1049/iet-est.2019.0005
  6. Amri, H., Hofstadter, R.N. & Kozek, M. (2011). Energy efficient design and simulation of a demand controlled heating and ventilation unit in a metro vehicle. Proc. IEEE Forum on Integrated and Sustainable Transportation Systems, 29 June-1 July, Austria.
  7. Arıkan, Y., Şen, T. & Çam, E. (2021). Energy efficiency in rail systems with coasting control method using GA and ABC optimizations. Tehnički vjesnik, 28 (4): 1127-1135. doi: 10.17559/TV-20200511115919.
  8. Arıkan, Y., Şen, T., & Çam, E. (2022). Actual-time modeling of a subway vehicle and optimal driving management with GA and ABC algorithms. Journal of Engineering Research, 10 (4A): 204-218. pp. 204-218, 2022. doi: 10.36909/jer.10205.
  9. Barrero, R., Tackoen, X., & Mierlo, J.V. 2010. Stationary or onboard energy storage systems for energy consumption reduction in a metro network. Journal of Rail and Rapid Transit, 224 (3): 207-225. doi: 10.1243/09544097JRRT322
  10. Bocharnikov, Y.V., Tobias, A. M., Roberts, C. ,Hillmansen, S., Goodman, C.J (2007). Optimal driving strategy for traction energy saving on DC suburban railways. IET Electric Power Applications, 1(5): 675-682. doi: 10.1049/iet-epa:20070005.
APA
Arıkan, Y., Akkaş, Ö. P., & Çam, E. (2024). A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems. International Journal of Engineering Research and Development, 16(1), 30-46. https://doi.org/10.29137/umagd.1347640
AMA
1.Arıkan Y, Akkaş ÖP, Çam E. A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems. IJERAD. 2024;16(1):30-46. doi:10.29137/umagd.1347640
Chicago
Arıkan, Yağmur, Özge Pinar Akkaş, and Ertuğrul Çam. 2024. “A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems”. International Journal of Engineering Research and Development 16 (1): 30-46. https://doi.org/10.29137/umagd.1347640.
EndNote
Arıkan Y, Akkaş ÖP, Çam E (January 1, 2024) A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems. International Journal of Engineering Research and Development 16 1 30–46.
IEEE
[1]Y. Arıkan, Ö. P. Akkaş, and E. Çam, “A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems”, IJERAD, vol. 16, no. 1, pp. 30–46, Jan. 2024, doi: 10.29137/umagd.1347640.
ISNAD
Arıkan, Yağmur - Akkaş, Özge Pinar - Çam, Ertuğrul. “A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems”. International Journal of Engineering Research and Development 16/1 (January 1, 2024): 30-46. https://doi.org/10.29137/umagd.1347640.
JAMA
1.Arıkan Y, Akkaş ÖP, Çam E. A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems. IJERAD. 2024;16:30–46.
MLA
Arıkan, Yağmur, et al. “A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems”. International Journal of Engineering Research and Development, vol. 16, no. 1, Jan. 2024, pp. 30-46, doi:10.29137/umagd.1347640.
Vancouver
1.Yağmur Arıkan, Özge Pinar Akkaş, Ertuğrul Çam. A Comprehensive Research on Ensuring Energy Efficiency in Rail Systems. IJERAD. 2024 Jan. 1;16(1):30-46. doi:10.29137/umagd.1347640