Modelling the interaction between the energy system and road freight in Norway
Rosenberg, Eva; Espegren, Kari; Danebergs, Janis; Fridstrøm, Lasse; Hovi, Inger Beate; Madslien, Anne
Peer reviewed, Journal article
Published version
Date
2022Metadata
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Original version
Transportation Research Part D: Transport and Environment. 2022, 114 1-19. 10.1016/j.trd.2022.103569Abstract
By soft-linking models for transport demand, vehicle turnover and energy generation and use, we show how such models can complement each other and become more relevant and reliable policy support tools. A freight demand model is used to project commodity flows onto the 2050 horizon. An energy system model is used to map the relationships between energy prices, fiscal incentives, and optimal vehicle technologies. A stock-flow vehicle fleet model is used to calculate the time lag between innovation affecting new vehicles and the penetration of novel technology into the fleet. By running the latter two models in an iterative loop, we predict the flow of new vehicles with more or less decarbonized powertrains, contingent upon energy prices and fiscal incentives, while also obtaining a well-founded and more realistic assessment of the time needed for radical CO2 mitigation. The methodology is illustrated through a scenario developed for Norway. Modelling the interaction between the energy system and road freight in Norway