Today, reducing vehicle energy consumption is a crucial topic. For electric ve hicles, reducing energy consumption is essential to address some of the most critical issues associated with this type of vehicle, such as the limited range of electric powertrains and the long battery recharging times. To lower the environmental impact during the vehicle’s use phase and reduce energy consumption, vehicle mass reduction (lightweighting) is an effective strategy. The objective of this work is to analyze the vehicle parameters that in fluence lightweighting outcomes on a real driving cycle, representative of the home-to work travel in northern Italy. In particular, a previous work carried out on standard driv ing cycles is repeated in order to observe whether it is possible to draw the same conclu sions regarding the variability in the lightweighting outcome. This study was conducted using two opposite vehicle models, a compact car and an N1 vehicle, simulated through a well-established vehicle simulation tool for energy consumption estimation. To conduct this analysis, several simulations with variable vehicle mass, and with different vehicle parameters, such as aerodynamics and rolling resistance, were performed to estimate en ergy consumption across a real-world driving cycle, acquired via GPS on board the vehi cle during a home-to-work journey in northern Italy. This study reveals that even for the real driving cycle, as for the WLTC and US06 standards, the parameters that most influ ence the outcome of the lightening are the rolling resistance, the characteristics of the bat tery pack, the aerodynamic coefficients, and the efficiency of the transmission. Finally, the standard cycle that best fits with the real one considered in this study is the Artemis Urban Cycle.

Exploring the Impact of Vehicle Lightweighting in Terms of Energy Consumption: Analysis and Simulation on Real Driving Cycle

Sandrini, Giulia;Chindamo, Daniel;Gadola, Marco;Candela, Andrea;Magri, Paolo
2024-01-01

Abstract

Today, reducing vehicle energy consumption is a crucial topic. For electric ve hicles, reducing energy consumption is essential to address some of the most critical issues associated with this type of vehicle, such as the limited range of electric powertrains and the long battery recharging times. To lower the environmental impact during the vehicle’s use phase and reduce energy consumption, vehicle mass reduction (lightweighting) is an effective strategy. The objective of this work is to analyze the vehicle parameters that in fluence lightweighting outcomes on a real driving cycle, representative of the home-to work travel in northern Italy. In particular, a previous work carried out on standard driv ing cycles is repeated in order to observe whether it is possible to draw the same conclu sions regarding the variability in the lightweighting outcome. This study was conducted using two opposite vehicle models, a compact car and an N1 vehicle, simulated through a well-established vehicle simulation tool for energy consumption estimation. To conduct this analysis, several simulations with variable vehicle mass, and with different vehicle parameters, such as aerodynamics and rolling resistance, were performed to estimate en ergy consumption across a real-world driving cycle, acquired via GPS on board the vehi cle during a home-to-work journey in northern Italy. This study reveals that even for the real driving cycle, as for the WLTC and US06 standards, the parameters that most influ ence the outcome of the lightening are the rolling resistance, the characteristics of the bat tery pack, the aerodynamic coefficients, and the efficiency of the transmission. Finally, the standard cycle that best fits with the real one considered in this study is the Artemis Urban Cycle.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11379/617386
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