Abstract
Dimensional chains are the basis for testing the feasibility of vehicle architectures in the early development phase since they allow for parametrical vehicle modeling. Parametrical modeling is employed in the early development of the vehicle in order to enable the estimation of the space available for powertrain components. For battery electric vehicles (BEVs), new dimensional chains have increased relevance because of the geometrical interdependencies between the traction battery and the passenger compartment. The passenger compartment and traction battery share the same position in the vehicle, i.e., between the axles, which leads to a conflict between these two components. Furthermore, the passenger compartment dimensions are needed to size components like heating, ventilation, and air conditioning (HVAC), the energy consumption of which in turn influences the required battery capacity. In order to describe these interdependencies, we identify a set of dimensional chains and derive a passenger compartment volume estimation model that can be employed in the early development phase of the vehicle design. We further analyze the single elements of the dimensional chain and present typical values for each element.
Highlights
The new European Union (EU) CO2 regulations [1] are forcing manufacturers to gradually introduce electric vehicles into their fleet
The linear regressions describing the internaloncombustion engine vehicles (ICEVs) with a transverse engine shows parameters differing from the longitudinal engine case, which confirms the influence of the engine installation
The parameters for the battery electric vehicles (BEVs) regression are similar to the ICEV transverse case
Summary
The new European Union (EU) CO2 regulations [1] are forcing manufacturers to gradually introduce electric vehicles into their fleet. This powertrain electrification is a long-term strategy that allows manufacturers to comply with the imposed EU emissions standards. The architecture design of battery electric vehicles (BEVs) represents a challenging task for manufacturers. It takes place during the early development phase, when engineers have to define the outer dimensions and the characteristics of the vehicle [2] The central component of BEV-architectures is the traction battery, which usually represents the largest and heaviest component of the electric powertrain
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