中文摘要：

利用Ansys仿真软件，基于黏性流体的Navier—Stokes方程和κ-ε双方程湍流模型，首次在热压耦合条件下建立真空管道交通系统三维数学模型及物理模型，对不同阻塞比条件下的真空管道系统运行进行数值仿真。结果表明：在列车速度和系统真空度一定的条件下，在温度场中，阻塞比越大，系统所产生的气动热越多，其增长趋势随阻塞比呈指数增长。在压力场中，随着阻塞比的增大，系统驻点处压力逐渐增大，但增长逐渐缓慢；涡街区域压力逐渐减小，且有加速减小趋势；列车首尾两端压差整体上呈线性递增趋势。

英文摘要：

Using the Ansys, based on viscous fluid Navier-Stokes equation and κ-εurbulence model, for the first time in thermal-pressure coupling is established under the condition of vacumn pipeline transportation system of three-dimensional mathematicM model and physical model, for different blockage ratios under conditions of ETT run numerical simulation. The simulation results show that： when the speed of the train and the vacuum degree of the system are constants, in the temperature field, the aerodynamic heating is getting more as the blocking ratio increases, and its trend is exponential growth. In the pressure field, with the increase of the blocking ratio, the stagnation pressure is gradually increased, but the growth is getting slower; Vortex region pressure reduces gradually, and has accelerated the decreasing trend; the pressure difference between the head and the end of the train is linear increment