Effect of Gust Wind on Flow over a Wall-Mounted Fence

Authors

  • Dhanush Bhamitipadi Suresh The University of Texas at Dallas, United States of America
  • Emmanuvel Joseph Aju The University of Texas at Dallas, United States of America
  • Matthew John Zaksek The University of Texas at Dallas, United States of America
  • Melissa Marie Leffingwell The University of Texas at Dallas, United States of America
  • Yaqing Jin The University of Texas at Dallas, United States of America

DOI:

https://doi.org/10.18409/ispiv.v1i1.100

Keywords:

gust wind, wake flow, time-resolved PIV

Abstract

In this work, the characteristics of incoming and wake flows downstream of wall-mounted fences under wind gust were explored with wind tunnel experiments. A time-resolved particle image velocimetry was used to capture the flow dynamics across two different fence heights. The results show that during the gust period, the wake presents distinct meandering and strong flow mixing. The Probability Density Function distribution of flow velocities indicates that the mixing effect increases with the streamwise distances. Specifically, for locations above the fence top tip, the growth of streamwise distance decreases the footprint of wind gust. However, for locations lower than the fence top tip, the local wind flows exhibit stronger variations before and after wind gust with the growth of downstream distance. Overall, at the same relative streamwise and spanwise locations downstream of fences within the wake region, the higher fence better suppresses the influence of gust wind.

Author Biography

  • Yaqing Jin, The University of Texas at Dallas, United States of America

    Dr. Yaqing Jin is an assistant professor in the University of Texas at Dallas. He received his PhD. and MS. degrees both in the department of Mechanical Science and Engineering, University of Illinois-Urbana Champaign in 2019 and 2015 respectively. He received his BS. in the School of Naval Architecture, Ocean & Civil Engineering from Shanghai Jiaotong Univresity. Dr. Jin’s research focuses on experimental fluid mechanics with various fluid-structure feedback problems including wind energy, underwater robotics, sedimentary flows, flow sensing, among others.

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Published

2021-08-01

Issue

Vol. 1 No. 1 (2021)

Section

Boundary Layers

License

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