摘要
Scalar mixing is under the joint control of convection and diffusion.The ratio of the dissipative scale of velocity field to that of the scalar field depends on the Schmidt number.In the high Schmidt mumber limit.the scalar scale is much smaller than that of the momentum,which then reguires either special treat ment or ad hoc models for the sealar quantity in mumerical simulations.In order to avoid model uncertainty or unnecessary numerical complexity.the direct numerical simulation is performed for studying the scalar mixing process in a confined rotating mixer tank.It has been found that in the range of negligible mumerical diffusivity the characteristic scalar mixing time is inversely proportional to the scalar diffusivitv.Analysis based on the dimensional argument justifies such scaling relation as well.from which the unaccepted computational time of the nixing process in the high Schmidt number limit can be efficiently determined,without the use of ad hoc models This scaling idea is also of practical meaningfulness for ot her similar problems.
作者
SUN Na
WANG Lipo
LI Yuanbo
LI Lin
QI Shuaipeng
SHEN Yongxing
孙娜;王利坡;李渊博;李琳;齐帅鹏;沈泳星(Shanghai Space Propulsion Technology Research Institute,Shanghai 201109,China;University of Michigan-Shanghai Jiao Tong University Joint Institute.Shanghai Jiao Tong University,Shanghai 200240,China)
