Home Faculty Hydraulic Engineering

 
Shih, WuRong Assistant ProfessorHydraulic Engineering
Title
Assistant Professor
TEL
(04) 2284-0437 ext. 315
E-Mail
wrshih@nchu.edu.tw
Office
Rm.307, Civil & Environmental Engineering Building
Record
Ph.D.(2017), Lehigh University, USA
Web site
 
Experience
Assistant Professor, National Chung Hsing University, Taiwan, 2020–present
Postdoctoral Fellow, National Taiwan University, Taiwan, 2020
Postdoctoral Fellow, Lehigh University, USA, 2017–2019
Research Areas
Sediment Transport and Environmental Fluid Mechanics
Hyporheic Exchange on Riverine Habitat Health
Refractive-Index-Matched Laser Scanning of Granular Bed
Sedimentation and Resuspension of Fine Particles
Awards
Studying Abroad Scholarship, Ministry of Education, Taiwan, 2015-2016
Courses
  1. 上學期
  2. Fluvial Hydraulics
  3. Credit:3
  4. Class:Graduate (In-Service Master Program)
  1. 上學期
  2. Experiment of Fulid Mechanics
  3. Credit:1
  4. Class:Junior-Class A
  1. 上學期
  2. Flow in Open Channels
  3. Credit:3
  4. Class:Junior-Class A&B
  1. 上學期
  2. Sediment Transport
  3. Credit:3
  4. Class:Junior-Class A&B
  1. 上學期
  2. Engineering Statistics (I)
  3. Credit:3
  4. Class:Sophomore-Class A
  1. 下學期
  2. Fluid Mechanics (I)
  3. Credit:3
  4. Class:Sophomore-Class A&B
Selected Publications
● Referred Papers 
1.
Shih, WuRong and Wu, F.-C., “Hyporheic exchange under undular flows over a coarse granular bed,” Geophysical Research Letters, 47(17), 2020. (SCI)
2.
Pan, J. J., He, Z. G., Shih, WuRong, and Cheng, N.-S., “Numerical modeling of scour and deposition around permeable cylindrical structures,” International Journal of Sediment Research, 35(3), pp. 278-286, 2020. (SCI)
3.
Ban, X., Diplas, P., Shih*, WuRong, Pan, B., Xiao, F., and Yun, D., “Impact of Three Gorges Dam operation on the spawning success of four major Chinese carps,” Ecological Engineering, 127, pp. 268-275, 2019. (SCI)
4.
Shih, WuRong and Diplas, P., “Threshold of motion conditions under Stokes flow regime and comparison with turbulent flow data,” Water Resources Research, 55(12), pp. 10872-10892, 2019. (SCI)
5.
Shih, WuRong and Diplas, P., “A unified approach to bedload transport description over a wide range of flow conditions via the use of conditional data treatment,” Water Resources Research, 54(5), pp. 3490-3509, 2018. (SCI)
6.
Shih, WuRong, Diplas, P., Celik, A. O., and Dancey, C., “Accounting for the role of turbulent flow on particle dislodgement via a coupled quadrant analysis of velocity and pressure sequences,” Advances in Water Resources, 101, pp. 37-48, 2017. (SCI)
7.
Chou, Y.-J., Wu, F.-C., and Shih, WuRong, “Toward numerical modeling of fine particle suspension using a two-way coupled Euler–Euler model: Part 2: Simulation of particle-induced Rayleigh–Taylor instability,” International Journal of Multiphase Flow, 64, pp. 44-54, 2014. (SCI)
8.
Chou, Y.-J., Wu, F.-C., and Shih, WuRong, “Toward numerical modeling of fine particle suspension using a two-way coupled Euler–Euler model. Part 1: Theoretical formulation and implications,” International Journal of Multiphase Flow, 64, pp. 35-43, 2014. (SCI)
9.
Wu, F.-C. and Shih, WuRong, “Entrainment of sediment particles by retrograde vortices: Test of hypothesis using near-particle observations,” Journal of Geophysical Research: Earth Surface, 117(F3), 2012. (SCI)
10.
Xuan Ban, WuRong Shih*, Panayiotis Diplas, Xiaotao Shi, Hao Du, Tao Qi, “Hydrodynamic preferences of Chinese sturgeon in the spawning sites of Yangtze River: Effects of in-stream hydraulic structures,” Ecological Engineering , (in revision). (SCI)
● Seminar Papers 
1.
Zhu, X., Shih, WuRong, and Zheng, Y. R., “Underwater Datalogger for Accurate Position and Location Estimation and Tracking,” 16th Annual IEEE International Conference on Sensing, Communication, and Networking (SECON), 2019. Boston, USA,
2.
Shih, WuRong and Diplas, P., “A micromechanical modeling approach for predicting particle dislodgement,” International Symposium, Sediment Dynamics: From the Summit to the Sea, 2015. New Orleans, USA,
Research Project
  2. 1. Seepage effects on hydrodynamic properties and sediment transport over a permeable granular bed
  3. 補助單位:MOST
  4. 執行期間: 2021-02-01 ~ 2024-01-31
  5.  
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