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Electric and Gasoline Vehicle Lifecycle Cost and Energy-Use Model

Author

Listed:
  • Delucchi, Mark
  • Burke, Andy
  • Lipman, Timothy
  • Miller, Marshall

Abstract

The design and lifecycle cost model designs a motor vehicle to meet range and performance requirements specified by the modeler, and then calculates the initial retail cost and total lifecycle cost of the designed vehicle. The model can be used to investigate the relationship between the lifecycle cost -- the total cost of vehicle ownership and operation over the life of the vehicle -- and important parameters in the design and use of the vehicle.

Suggested Citation

  • Delucchi, Mark & Burke, Andy & Lipman, Timothy & Miller, Marshall, 2000. "Electric and Gasoline Vehicle Lifecycle Cost and Energy-Use Model," Institute of Transportation Studies, Working Paper Series qt1np1h2zp, Institute of Transportation Studies, UC Davis.
    • Handle: RePEc:cdl:itsdav:qt1np1h2zp
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    Citations

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    Cited by:

    1. Juul, Nina, 2012. "Battery prices and capacity sensitivity: Electric drive vehicles," Energy, Elsevier, vol. 47(1), pages 403-410.
    2. Delucchi, Mark & Kurani, Ken, 2010. "How We Can Have Safe, Clean, Convenient, Affordable, Pleasant Transportation Without Making People Drive Less or Give Up Suburban Living," Institute of Transportation Studies, Working Paper Series qt0x92n7rg, Institute of Transportation Studies, UC Davis.
    3. González Palencia, Juan C. & Furubayashi, Takaaki & Nakata, Toshihiko, 2014. "Techno-economic assessment of lightweight and zero emission vehicles deployment in the passenger car fleet of developing countries," Applied Energy, Elsevier, vol. 123(C), pages 129-142.
    4. González Palencia, Juan C. & Sakamaki, Tsukasa & Araki, Mikiya & Shiga, Seiichi, 2015. "Impact of powertrain electrification, vehicle size reduction and lightweight materials substitution on energy use, CO2 emissions and cost of a passenger light-duty vehicle fleet," Energy, Elsevier, vol. 93(P2), pages 1489-1504.
    5. Juul, Nina & Meibom, Peter, 2011. "Optimal configuration of an integrated power and transport system," Energy, Elsevier, vol. 36(5), pages 3523-3530.
    6. Burke, Andrew & Collantes, Gustavo O & Miller, Marshall & Zhao, Hengbing, 2015. "Analytic Tool to Support the Implementation of Electric Vehicle Programs," Institute of Transportation Studies, Working Paper Series qt9r6227zh, Institute of Transportation Studies, UC Davis.
    7. Roberto Finesso & Daniela Misul & Ezio Spessa & Mattia Venditti, 2018. "Optimal Design of Power-Split HEVs Based on Total Cost of Ownership and CO 2 Emission Minimization," Energies, MDPI, vol. 11(7), pages 1-28, July.
    8. Juul, Nina & Meibom, Peter, 2012. "Road transport and power system scenarios for Northern Europe in 2030," Applied Energy, Elsevier, vol. 92(C), pages 573-582.
    9. Goedecke, Martin & Therdthianwong, Supaporn & Gheewala, Shabbir H., 2007. "Life cycle cost analysis of alternative vehicles and fuels in Thailand," Energy Policy, Elsevier, vol. 35(6), pages 3236-3246, June.
    10. Noland, Robert B. & Cowart, William A. & Fulton, Lewis M., 2006. "Travel demand policies for saving oil during a supply emergency," Energy Policy, Elsevier, vol. 34(17), pages 2994-3005, November.
    11. Ogden, Joan M. & Williams, Robert H. & Larson, Eric D., 2004. "Societal lifecycle costs of cars with alternative fuels/engines," Energy Policy, Elsevier, vol. 32(1), pages 7-27, January.
    12. Delucchi, Mark & Lipman, Timothy, 2001. "An Analysis of the Retail and Lifecycle Cost of Battery-Powered Electric Vehicles," Institute of Transportation Studies, Working Paper Series qt50q9060k, Institute of Transportation Studies, UC Davis.

    More about this item

    Keywords

    electric; gasoline; energy; model;
    All these keywords.

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