Numerical investigation of hydraulic jumps with USBR and wedge-shaped baffle block basins for lower tailwater-Reference-Cited by-同舟云学术

Numerical investigation of hydraulic jumps with USBR and wedge-shaped baffle block basins for lower tailwater

Published:2023-10-17 Issue:11 Volume:72 Page:2081-2108
ISSN:2709-8028
Container-title:AQUA — Water Infrastructure, Ecosystems and Society
language:en
Short-container-title:

Author:

Zaffar Muhammad Waqas¹²,Hassan Ishtiaq¹,Ali Zulfiqar²,Sarwar Kaleem³,Hassan Muhammad⁴,Mustafa Muhammad Taimoor²,Waris Faizan Ahmed²

Affiliation:

1. a Department of Civil Engineering, Capital University of Science and Technology, Islamabad Expressway, Kahuta Road Zone-V Sihala, Islamabad Capital Territory, Pakistan

2. b Department of Civil Engineering Technology, University of Chenab Gujrat, Gujrat, Pakistan

3. c Centre of Excellence in Water Resources Engineering, Lahore, Pakistan

4. d MIT Department, Mirpur University of Science and Technology (MUST), Mirpur, Azad Jammu and Kashmir (AJK), Pakistan

Abstract

Abstract The stilling basin of the Taunsa barrage is a modified form of the United States Bureau of Reclamation (USBR) Type-III basin, which consists of baffle and friction blocks. Studies revealed uprooting of baffle blocks due to their vertical face. Additionally, the literature highlighted issues of rectangular face baffle blocks: less drag, smaller wake area, and flow reattachment. In contrast, the use of wedge-shaped baffle blocks (WSBBs) is limited downstream of open-channel flows. Therefore, this study developed numerical models to investigate the effects of USBR and WSBB basins on the hydraulic jump (HJ) downstream of the Taunsa barrage under lower tailwater conditions. Surface profiles in WSBB and modified USBR basins showed agreement with previous studies, for which the coefficient of determination (R2) reached 0.980 and 0.970, respectively. The HJ efficiencies reached 57.9 and 58.6% in WSBB and modified USBR basins, respectively. The results of sequent depths, roller length, and velocity profiles in the WSBB basin were found more promising than the modified USBR basin, which further confirmed the suitability of the WSBB basin for barrages. Furthermore, WSBB improved flow behaviors in the basin, which showed no fluid reattachment on the sides of WSBB, increased wake regions, and decreased turbulent kinetic energies.

Publisher

IWA Publishing

Subject

Management, Monitoring, Policy and Law,Pollution,Water Science and Technology,Ecology,Civil and Structural Engineering,Environmental Engineering

Link

https://iwaponline.com/aqua/article-pdf/72/11/2081/1328838/jws0722081.pdf

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