Abstract
The governing equations for submerged buoyant jet are solved numerically using the standard k model for turbulence closure. Comparison shows that results from simulation of this jet in quiescent ambient are in good agreement with the existing data. Simulation is also performed for this submerged jet in moving ambient for the seasonal conditions of a typical steam power plant situated nearby a river. Study of trajectories and excess temperatures of the jets in moving ambient show small vertical rises for the regulated excess temperatures over the year.
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