低速风洞固定地板附面层控制实验研究

Experimental study on the control of fixed floor boundary layer in low speed wind tunnel

  • 摘要: 在飞机起降和车辆的风洞试验中,通常采用固定地板来模拟地面,但固定地板附面层的存在对试验数据产生了不可忽略的影响。因此,需要采取一定措施控制地板表面上的附面层影响。采用附面层吸除方法对于中国空气动力研究与发展中心8m×6m低速风洞的大面积地板来说效果较好、可行性高。研制了含有可单独控制的48个吸气单元共192个吸气孔的地板,集成了以水环真空泵组为基础的真空吸气和控制系统。在70m/s的风速下,通过试验获得了10种地板分布式吸气控制方案对地板附面层厚度的影响规律,得到了将附面层厚度控制在30mm的最佳吸气控制方案。在最佳控制方案下,测量得到风洞流场气流偏角为-0.14°,验证了附面层厚度不受地板在风洞中安装高度的影响。最后,采用C919飞机模型完成了吸气地板和不吸气地板的对比试验,得出在迎角8°以上,吸气地板使C919飞机试验获得的升力系数减小,阻力系数增加,俯仰力矩增加。

     

    Abstract: In the wind tunnel test of aircraft-taking-and-landing and vehicles, the fixed floor is used to simulate the ground. The existence of the fixed floor boundary layer has an influence on the test data. Generally in order to obtain full and reliable experimental data close to the ground state, various methods can be used to eliminate the boundary layer influence on the surface of the ground floor. Considering the effect and feasibility of large area fixed floor, we have put forward the suction control method of boundary layer thickness in the 8m×6m wind tunnel of China Aerodynamics Research and Development Center. The fixed floor with 48 suction units and 192 suction holes, which can be individually controlled, is developed. Based on the water ring vacuum pipe, a vacuum suction and control system is designed. Through the experiments, 10 kinds of boundary layer thickness control option are analyzed at the wind speed of 70m/s. Then we get the optimal control option with 30mm boundary layer thickness. At this optimal option, the influence on the flow angle is-0.14° and the height of the floor is also investigated. In the end, the suction floor system is applied in the wind tunnel test of C919, where it is found that at the angle of attack more than 8°, the lift coefficient decreases, the drag coefficient increases and the pitching moment increases.

     

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