한국환경과학회지 (Journal of Environmental Science International)

  • 제33권7호
  • /
  • Pages.523-532
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  • 2024
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  • 1225-4517(pISSN)
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  • 2287-3503(eISSN)
한국환경과학회 (The Korean Environmental Sciences Society)
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전기차 배터리 소모량 분석모형 개발 및 실증

Development and Empirical Validation of an Electric Vehicle Battery Consumption Analysis Model

  • 투고 : 2024.06.17
  • 심사 : 2024.07.05
  • 발행 : 2024.07.31
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초록

In popular tourist destinations such as Jeju and Gangwon, electric rental cars are increasingly adopted. However, sudden battery drain due to weather conditions can pose safety issues. To address this, we developed a battery consumption analysis model that considers resistive energy factors such as acceleration, rolling resistance, and aerodynamic drag. Focusing on the effects of ambient temperature and wind speed, the model's performance was evaluated during an empirical validation period from November to December 2023. Comparing predicted and actual state of charge (SoC) across different routes identified ambient temperature, wind speed, and driving time as major sources of error. The mean absolute error (MAE) increased with lower temperatures due to reduced battery efficiency. Higher wind speeds on routes 1 and 6 resulted in larger errors, indicating the model's limitation in considering only tailwinds for aerodynamic drag calculations. Additionally, longer driving times led to higher actual SoC than predicted, suggesting the need to account for varying driver habits influenced by road conditions. Our model, providing more accurate SoC predictions to prevent battery depletion incidents, shows high potential for application in navigation apps for electric vehicle users in tourist areas. Future research should endeavor to the model by including wind direction, HVAC system usage, and braking frequency to improve prediction accuracy further.

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과제정보

이 연구는 2022년도 중소벤처기업부의 기술개발사업(S3310841) 지원을 받아 수행되었습니다.

참고문헌

  1. Bae, S. H., Jeon, S. U., Park, J. W., 2015, A Study on SOC estimation method using battery discharge characteristics, 2015 The Institute of Electronics Engineers of Korea Conference, The Institute of Electronics Engineers of Korea, 1193-1195.
  2. Han, M. Y., Lee, K. S., 2014, Estimation of state-of-charge and sensor fault detction of a lithium-ion battery in electric vehicles, Trans. Korean. Inst. Elect. Eng., 63(8), 1085-1091. https://doi.org/10.5370/KIEE.2014.63.8.1085
  3. Jang, K. W., Chung, G. B., 2012, A SOC estimation using kalman filter for lithium-polymer battery, The Korean Institute of Power Electronics, 17(3), 222-229. https://doi.org/10.6113/TKPE.2012.17.3.222
  4. Kim, Y. H., Kim, D. H., 2011, Implementation of battery 'state of charge' estimation algorithm, J. Korea Inst. Inf. Commun. Eng., 10(1), 27-32.
  5. Lee, G. R., Song, J. G., Lim, Y. S., Park, S. H., 2024, Energy consumption evaluation of passenger electric vehicle based on ambient temperature under real-world driving conditions, Energy Conversion and Management, 306, 118289.
  6. Lee, T. H., Ha, S. W., Choi, Y. J., Kim, K. J., Choi, D. H., 2019, Analysis of battery consumption according to air-conditioner operation of commercial electric vehicle, KSAE (Transactions of the Korean Society Automotive Engineers), 27(2), 145-150.
  7. MOLIT STATISTICS SYSTEM, 2023, EV registrations by region in Korea.
  8. MOTIE, 2021, The fourth basic plan for eco-friendly vehicles.
  9. Ondruska, P., Posner, I., 2014, Probabilistic attaunability maps: Efficiently predicting driver-specific electric vehicle range, 2014 IEEE Intelligent Vehicles Symposium Proceedings, 1169-1174.
  10. Sun, S., Zhang, J., Bi, J., Wang, Y., 2019, A Machine learning method for predicting driving range of battery electric vehicle, Journal of Advanced Transportation, 2019(6), 1-14.
  11. Vaz, W., Nandi, A. K., Landers, R. G., Koylu, U. O., 2015, Electric vehicle range prediction for constant speed trip using multi-objective optimization, J. Power Sources, 275, 435-446.
  12. Young, K., Wang, C., Wang, L., Strunz, K., 2012, Chapter 2 electric vehicle battery technologies, Engineering, Environmental Science.
  13. Zheng, C. H., Park, Y. I., Lim, W. S., Cha, S. W., 2012, A Study on battery SOC estimation by regenerative braking in electric vehicles, KSAE (Transactions of the Korean Society Automotive Engineers), 20(1), 119-123. https://doi.org/10.7467/KSAE.2012.20.1.119