\begin{document}$ \phi = 0.3{{5}},\;0.4{{0}},\;1 $\end{document} are considerded to study the evolution process and structure of salt fingers. The evolution process of salt finger is divided into three stages: diffusion stage, linear growth stage and slow growth stage. For all cases, the kinetic energy is transformed rapidly at linear growth stage, which promotes the mixture of momentum, temperature and salinity at the interface. Then at the slow growth stage, the kinetic energy conversion rate becomes slower before finally the kinetic energy is dissipated by the viscosity and friction. The results show that unlike the salt finger structure in stratified fluid, an asymmetric structure of salt finger is discovered where finger in the porous medium is shorter and wider. The existence of solid skeleton in porous medium hinders the growth of salt finger and reduces the vertical mass flux. Compared with the temperature, the salinity fluctuates more greatly at the interface, which also means that the effect of salt finger on salinity is greater than that of temperature. It is found that the higher the porosity, the faster the growth of thickness of salt finger interface is. Under the condition of high porosity, the potential energy stored by the unstable stratification of salinity is converted much more into kinetic energy, which increases the transport of heat and mass in the vertical direction and thus enhances the mixture capability of salt finger in the vertical direction."> - 必威体育下载

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    Zhang Xian-Fei, Wang Ling-Ling, Zhu Hai, Zeng Cheng
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    • Abstract views:5995
    • PDF Downloads:65
    • Cited By:0
    Publishing process
    • Received Date:09 March 2020
    • Accepted Date:24 June 2020
    • Available Online:28 October 2020
    • Published Online:05 November 2020

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