In this study, we continued the analysis of our previous work (Franco et al. in Journal of Wind Engineering and Industrial Aerodynamics 223, 2022) on the performance of multiple jets in cross-flow as wind barriersWind barrier. This study focuses on analyzing the distribution of RWS, a variable that characterize wind barriersWind barrier in the wake of twin jets in a cross-flow. Additionally, hot-wire anemometerHot-wire anemometer measurements on a 324 node grid for twenty-four different combinations of velocity ratios and distances between jets were conducted. These measurements were processed and analyzed by comparing the results with measurements for typical rigid windbreaks. The results were also processed to describe the jet trajectories and compare it to results from the bibliography

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Twin Jets in Cross-Flow Topology and Characterization as Wind Barrier

  • I. Franco,
  • J. Cataldo,
  • A. Gutierrez

摘要

In this study, we continued the analysis of our previous work (Franco et al. in Journal of Wind Engineering and Industrial Aerodynamics 223, 2022) on the performance of multiple jets in cross-flow as wind barriersWind barrier. This study focuses on analyzing the distribution of RWS, a variable that characterize wind barriersWind barrier in the wake of twin jets in a cross-flow. Additionally, hot-wire anemometerHot-wire anemometer measurements on a 324 node grid for twenty-four different combinations of velocity ratios and distances between jets were conducted. These measurements were processed and analyzed by comparing the results with measurements for typical rigid windbreaks. The results were also processed to describe the jet trajectories and compare it to results from the bibliography