Author(s)

Tomohiro Degawa^1*, Tomomi Uchiyama¹, Isao Aozasa², Akira Ishikawa³, Koji Motoyama³

¹Institute of Materials and Systems for Sustainability, Nagoya University, Nagoya, Japan.
²Mitsubishi Electric Co., Tokyo, Japan.
³Chubu Electric Power Co., Inc., Nagoya, Japan.

This study simulates the behavior of a jet issuing into a two-layer density-stratified fluid in a cylindrical tank and the resulting mixing phenomena. The upper and lower fluids are water and an aqueous solution of sodium chloride (NaCl), respectively, with the lower fluid issuing diagonally upward from a nozzle on the bottom of the tank. The angle between the centerline of the jet and the tank bottom is 60°. The phenomena when the Reynolds number Re of the jet is 475, 1426, and 2614 are simulated. The mass concentration of the aqueous solution of NaCl is 0.02. The simulation successfully grasps the jet behavior and the resulting mixing, which agree with the authors’ experimental results at the corresponding Re value. The secondary flows that appear in the horizontal cross-sections consist of a pair of vortices and flows along the tank wall. The secondary flow at the density interface represents the intrusion of an internal density current, which gives rise to mixing along the interface.

Jet, Density-Stratified Fluid, Mixing, Secondary Flow, Density Current

Degawa, T. , Uchiyama, T. , Aozasa, I. , Ishikawa, A. and Motoyama, K. (2018) Numerical Simulation of Jet Issuing Diagonally Upward into Density-Stratified Fluid in Cylindrical Tank. Journal of Power and Energy Engineering, 6, 38-52. doi: 10.4236/jpee.2018.63004.