Petter Ekman scite author profile

There is a need to reduce fuel consumption, and thereby reduce CO 2-emissions in all parts of the transport sector. It is also well known that aerodynamic resistance affects the fuel consumption in a major way. By improving the aerodynamics of the vehicles, the fuel consumption will also decrease. A special type of transportation is that of timber, which is performed by specialized trucks with few alternative uses. This paper follows up on earlier papers concerning Swedish timber trucks where aerodynamic improvements for timber trucks were tested. By mapping the entire fleet of timber trucks in Sweden and investigating reduced fuel consumption of 2-10%, financial calculations were performed on how these improvements would affect the transport costs. Certain parameters are investigated, such as investment cost, extra changeover time and weight of installments. By combining these results with the mapping of the fleet, it can be seen under which circumstances these improvements would be sustainable. The results show that it is possible through aerodynamics to lower the transportation costs and make an investment plausible, with changeover time being the most important parameter. They also show that certain criteria for a reduced transportation cost already exist within the vehicle fleet today.

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Accuracy and Speed for Scale-Resolving Simulations of the DrivAer Reference Model

Ekman¹,

Larsson²,

Virdung³

et al. 2019

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Aerodynamic Drag Reduction - from Conceptual Design on a Simplified Generic Model to Full-Scale Road Tests

Ekman

Gårdhagen

Virdung³

et al. 2015

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Petter Ekman

Aerodynamics of Timber Trucks - a Wind Tunnel Investigation

Assessment of hybrid RANS-LES methods for accurate automotive aerodynamic simulations

Sustainable Timber Transport—Economic Aspects of Aerodynamic Reconfiguration

Accuracy and Speed for Scale-Resolving Simulations of the DrivAer Reference Model

Aerodynamic Drag Reduction - from Conceptual Design on a Simplified Generic Model to Full-Scale Road Tests

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