Sumit R. Zanje scite author profile

This work investigates the siphon break phenomenon associated with pipe leakage location. The present study is divided into two parts: (1) an unsteady three-dimensional (3D) computational fluid dynamics (CFD) model is developed to simulate the transient water level and discharge in the simulated siphon using the volume-of-fluid (VOF) technique under no-leakage condition (2) using the model developed in the first part we investigate the siphon break phenomenon associated with pipe leakage location. The calculated results of transient water level and discharge at the simulated siphon for the no-leakage condition were in good agreement with the experimental measurements. In addition, the velocity, pressure fields, and phase fractions in the siphon pipe were analyzed in-depth. The methodology and findings presented show that leakage above the hydraulic grade line and close to the top inverted U section of the siphon pipe ultimately leads to the siphon breakage, which is not the case for a leakage below the hydraulic grade line. It is also concluded that if leakage is above the hydraulic grade line and the leakage position is far away from the upper horizontal section of the siphon pipe, it may not lead to the immediate siphon breakage as ingested air gets removed with siphoning water, allowing it further time to cause complete siphon breakage.

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CFD Modeling of Storm Sewer Geysers in Partially Filled Dropshafts

Zanje

Mahyawansi

León

et al. 2022

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Experiments and Numerical Modeling of Field-Scale Geysers in Stormsewer Systems

León¹,

Zanje²

2019

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Sumit R. Zanje

A Feasibility Study on Harvesting Rainwater from Large Solar Panel Canopies to Supplement Makeup Water for Cooling Towers by Using Remotely Controlled and Self-Cleaning Rain Cistern

Impact of Pipe Leakage Location on Siphon Flow Breakage

Siphon Break Phenomena Associated With Pipe Leakage Location

CFD Modeling of Storm Sewer Geysers in Partially Filled Dropshafts

Experiments and Numerical Modeling of Field-Scale Geysers in Stormsewer Systems

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