EuroPub
Search
Apply

Bionic shape design of electric locomotive and aerodynamic drag reduction

Journal Title: Archives of Transport - Year 2018, Vol 4, Issue 48

Abstract

Bionics has been widely used in many fields. Previous studies on the application of bionics in locomotives and vehicles mainly focused on shape optimisation of high-speed trains, but the research on bionic shape design in the electric locomotive field is rare. This study investigated a design method for streamlined electric locomotives according to the principles of bionics. The crocodiles were chosen as the bionic object because of their powerful and streamlined head shape. Firstly, geometric characteristic lines were extracted from the head of a crocodile by analysing the head features. Secondly, according to the actual size requirements of the electric locomotive head, a free-hand sketch of the bionic electric locomotive head was completed by adjusting the position and scale of the geometric characteristic lines. Finally, the non-uniform rational B-splines method was used to establish a 3D digital model of the crocodile bionic electric locomotive, and the main and auxiliary control lines were created. To verify the drag reduction effect of the crocodile bionic electric locomotive, numerical simulations of aerodynamic drag were performed for the crocodile bionic and bluff body electric locomotives at different speeds in open air by using the CFD software, ANSYS FLUENT16.0. The geometric models of crocodile bionic and bluff body electric locomotives were both marshalled with three cars, namely, locomotive + middle car + locomotive, and the size of the two geometric models was uniform. Dimensions and grids of the flow field were defined. And then, according to the principle of motion relativity, boundary conditions of flow field were defined. The results indicated that the crocodile bionic electric locomotive demonstrated a good aerodynamic performance. At the six sampling speeds in the range of 40–240 km/h, the aerodynamic drag coefficient of the crocodile bionic electric locomotive decreased by 7.7% on the average compared with that of the bluff body electric locomotive.<br/><br/>

Authors and Affiliations

Zhenfeng WU, Yanzhong HUO, Wangcai DING, Zihao XIE

Keywords

electric locomotive bionic crocodile aerodynamic drag numerical simulation

Related Articles

Empirical modeling of the relationship between decision sight distance and stopping sight distance based on AASHTO

The paper introduces implementation of highways' stopping sight distance (SSD) and decision sight distance (DSD) based on AASHTO modeling assumptions. SSD characterizes the necessary distance for highway vehicles to stop...

The analysis of urban taxi carpooling impact from taxi GPS data

Taxi is an important part of urban passenger transportation system. The research and analysis of taxi trip behavior is the key to meet the demand of urban passenger transport and solve the traffic congestion problem. Bas...

THE STUDY OF TRACK GAUGE INFLUENCE ON LATERAL STABILITY OF 4-AXLE RAIL VEHICLE MODEL

Analysis of lateral stability of rail vehicle model is the subject of present paper. The method used by the author is based on bifurcation diagrams creation and analysis. The continued study of stability of vehicle model...

Do Steel Bridges Prevent Rail Corrugations?

Rail corrugations (germ. “Schlupfwellen”) are wear pattern, which emerge during the transits of railway vehicles at narrow railway curves (R  250 m) and they are a menace to railway operators, especially if their railro...

Improving the quality of voltage in the system of traction power supply of direct current

Purpose of the work is improved approaches to ensure the required quality parameters of voltage in the traction network based on modern technologies and equipment in the application of power distribution system. Actualit...

Download PDF file
  • EP ID EP431375
  • DOI 10.5604/01.3001.0012.8369
  • Views 106
  • Downloads 0

How To Cite

Zhenfeng WU, Yanzhong HUO, Wangcai DING, Zihao XIE (2018). Bionic shape design of electric locomotive and aerodynamic drag reduction. Archives of Transport, 4(48), 99-109. https://europub.co.uk/articles/-A-431375

Sign In Europub

For faster login or register use your social account.

or
Lost Your Password?
Register