Abstract
As train speeds continuously increase, the crosswind stability of high-speed trains (HSTs) has been a prominent research topic. Benefiting from advances in railway technology, the coupled operation of different HSTs has been proven to be permissible, but the crosswind performance of double-connected train groups composed of different kinds of HSTs has rarely been studied. This paper therefore studied the differences in the aerodynamic performance of double-connected train groups composed of same and different train units under crosswinds. We employed an improved delayed detached-eddy simulation (IDDES) method to investigate the flow features around different groups of double-connected train. Two one-eighth-scale standard HSTs—Train 1 (T 1) and Train 2 (T 2)—currently operating in China were selected to form different group configurations for double-connected trains: T 1-T 1 (Case 1–1), T 1-T 2 (Case 1–2), T 2-T 1 (Case 2–1), and T 2-T 2 (Case 2–2). First, the reliability of the numerical algorithm and mesh independence were verified to ensure the accuracy of the numerical results. Second, the aerodynamic force coefficients, time-averaged, and instantaneous flow structures of different double-connected train group types were compared and analyzed.
Original language | English |
---|---|
Pages (from-to) | 465-481 |
Number of pages | 17 |
Journal | Alexandria Engineering Journal |
Volume | 64 |
DOIs | |
Publication status | Published - 1 Feb 2023 |
Keywords
- Aerodynamic forces
- Flow structures
- High-speed train
- Improved delayed detached-eddy simulation (IDDES)
- Pressure and slipstream
ASJC Scopus subject areas
- General Engineering