SYSTEM DYNAMICS MODELING OF NEW VEHICLE ARCHITECTURE ADOPTION

DS 68-10: Proceedings of the 18th International Conference on Engineering Design (ICED 11), Impacting Society through Engineering Design, Vol. 10: Design Methods and Tools pt. 2, Lyngby/Copenhagen, Denmark, 15.-19.08.2011

Year: 2011
Editor: Culley, S.J.; Hicks, B.J.; McAloone, T.C.; Howard, T.J. & Dong, A.
Author: Gorbea, Carlos Enrique; Lindemann, Udo; de Weck, Olivier L.
Section: Design Methods and Tools Part 2
Page(s): 278-289

Abstract

This paper presents a system dynamics simulation model used to predict the market share penetration of hybrid (HEV) and battery electric vehicles (BEV) over time. The utility of the model for early design decision making stems from its ability to link key influencing factors such as: fuel price fluctuations, government incentives, customer network effects, vehicle cost of ownership/operation and initial retail price differences between alternative vehicle architectures to the internal combustion engine (ICE) reference architecture in a transparent mathematical formulation. The simulation model is set to the 2009 conditions of the light duty vehicle market in the United States and run for a period of ten years from 2009-2020. After 200 iterations with varying fuel prices, the simulation results predict that by 2020 market advances of hybrid cars will go from 4.5% to roughly 14% and electric cars from 0% to roughly 5% market share of new vehicles sold. The estimated figures presented are in line with previously published market analyst estimates. Additionally, the model has the added advantage of experimenting on how influencing factors affect the simulation results.

Keywords: VEHICLE ARCHITECTURES; SYSTEM DYNAMICS; SIMULATION

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