Rationale for New Ways to Reduce the Aerodynamic Resistance of Road
Trains 2022-01-5080
In modern conditions, the rising cost of fuel and the adoption of more stringent
environmental standards in developed countries require a reduction in fuel
consumption by vehicles. The profitability of the trucking industry depends on
the fuel economy of trucks, which, in turn, is determined by many factors,
including their aerodynamic characteristics. The article substantiates new ways
of reducing the aerodynamic drag of road trains based on a study conducted by
the authors. Numerical simulation of the road train aerodynamics allows us to
determine the distribution of velocity, pressure, and air turbulence zone around
it. The effectiveness of known and proposed technical solutions to reduce the
aerodynamic drag of trains with the use of spoilers of various designs has been
evaluated and implemented. An effective way to reduce the aerodynamic resistance
of road trains is proposed. The method is to use air ducts as a part of the
semi-trailer through which air flows in from the front and around it, along and
through the sides. By means of numerical modeling, the features of the
distribution of turbulent dissipation zones of the airflow and its velocity in
the rarefaction zone behind the semi-trailer (RZBS) are established. The
obtained results confirm the feasibility of the application of the proposed
method to reduce the aerodynamic drag of road trains.
Citation: Gritsuk, I., Batrachenko, O., Tarandushka, L., Mitienkova, V. et al., "Rationale for New Ways to Reduce the Aerodynamic Resistance of Road Trains," SAE Technical Paper 2022-01-5080, 2022, https://doi.org/10.4271/2022-01-5080. Download Citation
Affiliated:
Technical Operation and Service Vehicles, Kharkiv National, Cherkasy State Technological University, Admiral Makarov National University of Shipbuilding, Kharkiv National Automobile and Highway University, State Biotechnological University
Pages: 21
Event:
Automotive Technical Papers
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Drag
Computer simulation
Fuel consumption
Fuel economy
Trucks
Mathematical models
Aerodynamics
Spoilers
Turbulence
Trailers
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