Abstract

The two-component jet flow with heat transfer in a channel is numerically investigated by the pseudo-potential lattice Boltzmann method using discretized force treatment coupled with passive-scalar approach. The influences of interaction strength, Reynolds number and Prandtl number of jetting and surrounding fluids on jet flow with heat transfer in a channel are analyzed. Numerical results show that the extrusion effect, which derives from these influence factors, is prominent for fluid distribution and flow.

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