Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
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Optimized Strategy of Neighborhood Electric Vehicle with Driving Schedules

도심주행 패턴에 따른 소형 전기자동차 최적화 전략

  • Received : 2009.06.10
  • Accepted : 2009.11.02
  • Published : 2010.05.01
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Abstract

The Developing & Producing of Eco-Friendly vehicle have been more incremented, as People appreciate the importance of Earth Environment Conservation. The needs of Neighborhood Electric Vehicle(NEV) that suits Current people's short drive distance is incremented. In this Paper, we define Neighborhood Electric Vehicle through out National Highway Traffic Safety Administration of United States of America's regulation and explain motor and battery of primary constituents of that. We used MATLAB and ADVISOR 200 programs for Simulation, and propsed NEV's Model that tow people can be got in. In this Model, the battery is Lead-acid battery(72V, 85Ah) and the motor is 8kW permanent magnet synchronous motor(PM motor). We compared change of driving range of NEV through out non-changing speed Driving(10km/h, 20km/h, 30km/h, 40km/h) and Manhattan driving schedule.

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References

  1. K. David Huang, S.-C. Tzeng, Development of a Dybrid Pneumatic-power Vehicle, Applied Energy, Elsevier, 2004.
  2. T. Markel, M. Zolot, K. B. Wipke, A. A. Pesaran, "Energy Storage System Requirements for Hybrid Fuel Cell Vehicles," Advanced Automotive Battery Conference, pp.10-13, 2003.
  3. G. Kim, N. Kim and C. Cho, "Small Scale Linear Ceramic Engine Generator for Neighborhood Electric Vehicle," EVS24, World Electric Vehicle Association, p.2, 2009.
  4. S. Hwang, Traffic, The Korea Transport Institute, Vol.93, p.7, 2005.
  5. Y. Lee, Traffic, The Korea Transport Institute, Vol.103, p.6, 2006.
  6. National Highway Traffic Safety Administration, 49 CFR Part 571 (Docket No. NHTSA 98- 3949) RIN 2127-AG58 Federal Motor Vehicle Safety Standards, 1998.
  7. J. Shin, J. Shim, S. Hwang and G. Park, "Structural Analysis and Optimization of a Low Speed Vehicle Body," Transactions of KSAE,Vol.11, No.4, pp.66-78, 2003.
  8. U. Lim, S. Jeon, W. Jeon, C. Shin, S. Chung and S. Kim, "Modeling of the Charge-Discharge Behavior of a 12V Automotive Lead-acid Battery," Korean Chem. Eng. Res., Vol.45, No.3, pp.242-248, 2007.
  9. T. D. Gillespie, Fundamentals of Vehicle Dynamics, SAE, USA, 1992.