2008 journal article

NUMERICAL SIMULATION OF TURBULENT JETS

ENGINEERING APPLICATIONS OF COMPUTATIONAL FLUID MECHANICS, 2(2), 234–243.

By: T. Aziz*, J. Raiford* & A. Khan*

co-author countries: United States of America 🇺🇸
author keywords: computational modeling; turbulent jets; storm water discharge; turbulent closure schemes
Source: Web Of Science
Added: August 6, 2018

In this study, plane and circular turbulent non-buoyant jets are simulated numerically using a three-dimensional computational model. The aim of the study is to evaluate the accuracy of turbulent closure schemes employed in three-dimensional models. In particular, standard k–ε and renormalized group k–ε schemes with standard coefficients are evaluated. The modeled jets are deeply submerged, that is the impact of free surface and solid boundaries on jets are eliminated. The accuracy of the turbulent schemes is assessed by analyzing the decay of centerline velocity, jet growth rates, similarity of longitudinal and vertical velocity profiles, and turbulent kinetic energy profiles. The results from the two turbulent closure schemes are compared with accepted experimental and theoretical studies to determine their accuracy. It is found that the k—ε scheme with standard coefficient performs equally well and in some cases better than the renormalized group k—ε scheme. Finally, the model is applied to analyze flow pattern in the Sampit River, South Caroline, USA, resulting from stormwater discharge in a recreational area. Various inlet designs are investigated and box inlet is found to provide a practical means of localizing high surface currents.