Development of the Vastra Gotaland operating cycle for long-haul heavy-duty vehicles

Development of the Vastra Gotaland operating cycle for long-haul heavy-duty vehicles

In this paper, a complete operating cycle (OC) description is developed for heavy-duty vehicles traveling long distances in the region of Västra Götaland, Sweden. Variation amongst road transport missions is accounted for using a collection of stochastic models. These are parametrized from log data...

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Bibliographic Details
Published in:IEEE access Vol. 11; p. 1
Main Authors: Romano, Luigi, Godio, Michele, Johannesson, Par, Bruzelius, Fredrik, Ghandriz, Toheed, Jacobson, Bengt
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-01-2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Auto regressive process
Autoregressive modelling
autoregressive models
Autoregressive processes
Classification
Classification (of information)
Design optimization
Diesel engines
Energy efficiency
Fleet operations
Generator
Generators
Heavy duty trucks
Heavy vehicles
Kinematics
Markov modeling
Markov models
Markov processes
mission classification
Operating cycle
Predictive maintenance
Production control
Production planning
Random variables
Road
road transport mission
Road transportation
Road transports
Roads
Roads and streets
Speed limits
Stochastic models
Stochastic processes
Stochastic systems
Stochastic-modeling
Surfaces
Tractor trailers
Vehicles
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Summary:In this paper, a complete operating cycle (OC) description is developed for heavy-duty vehicles traveling long distances in the region of Västra Götaland, Sweden. Variation amongst road transport missions is accounted for using a collection of stochastic models. These are parametrized from log data for all the influential road parameters that may affect the energy performance of heavy trucks, including topography, curvature, speed limits, and stop signs. The statistical properties of the developed OC description are investigated numerically by considering some composite variables, condensing the salient information about the road characteristics, and inspired by two existing classification systems. Two examples are adduced to illustrate the potential of the OC format, which enables ease of classification and detailed simulation of energy efficiency for individual vehicles, with application in vehicle design optimization and selection, production planning, and predictive maintenance. In particular, for the track used in the first example, a Volvo FH13 equipped with a diesel engine, simulation results indicate mean CO 2 emissions of around 1700 g km -1 , with a standard deviation of 360 g km -1 ; in the second example, dealing with electrical fleet sizing, the optimal proportion shows a predominance of tractor-semitrailer vehicles (70%) equipping 4 motors and 11 battery packs.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2023.3295989