Dilution of a Single-Port Submerged Diffuser with Fixed Vanes

Thermal pollution refers to the alteration of water properties caused by the use of water as a cooling fluid. This occurs when water is pulled from a water source, condensed to release heat, and then recirculated back into the water source as thermal discharge. The characteristics of thermal discharge dilution are influenced by factors such as jet momentum, buoyancy, turbulence-induced distribution, density stratification of the surrounding environment, configuration of water currents, presence of solid boundaries, and heat exchange at the surface. A single-port diffuser is used for the discharge of hot water. This study employed experimental methods to investigate the impact of fixed vanes on the thermal effluent dilution of a single-port submerged diffuser. The use of fixed vanes increases the dilution of a single-port submerged diffuser. Using fixed vans for H= 1, Delta T-m was reduced by 3.13%, 10.26%, and 2.74%, and Delta T-e was reduced by 15.66%, 17.86%, and 22.86%, respectively, for each flow ratio. For H= 2, Delta T-m decreased by 2.38%, 3.41%, and 4.48%, and Delta T-e decreased by 8.33%, 15%, and 16.67%, respectively, for each flow ratio. For H= 3, Delta T-m decreased by 2.86%, 2.22%, and 3.45%, and Delta T-e decreased by 5%, 29.41%, and 22.73%, respectively, for each flow ratio. In addition, increasing the Reynolds number ratio reduces the mixing zone and increases the dilution temperature.