Effects of viscosity on hydrodynamics and mass transfer under a wire mesh-coupled solid particles method

Author:

Di Chuanjun,Zhang PanORCID,Guo Xiaohan,Xu Xuehui,Zhang Jiaxin,Chen GuanghuiORCID,Gao FeiORCID,Li Jianlong

Abstract

Many practical industrial processes require gas–liquid mass transfer in highly viscous liquids, and liquid viscosity affects bubble characteristics and gas–liquid mass transfer. The current study investigated the effects of liquid viscosity on bubble dynamics and gas–liquid mass transfer via shadow imaging and dynamic oxygen dissolution methods, and the influence of fluid viscosity on the hydrodynamic effect when using a wire mesh-coupled solid particles method. The coupling strategy was associated with a bubble size regulation effect, with greater viscosity increasing the gas–liquid interface area by 27%–55% compared with unreinforced gas–liquid flow, which was superior to embedded wire mesh and added solid particles methods. Increased viscosity weakened the mass transfer enhancement effect of the coupling method, but the coupling method still effectively enhanced the gas–liquid mass transfer process, increasing the volumetric mass transfer coefficient (KLa) by 80%–130% compared to non-enhanced gas–liquid flow. Novel empirical KLa correlation equations were developed to predict the effects of the coupling method on gas–liquid mass transfer processes, and those equations exhibited good reliability and predictive capacity.

Funder

Major Scientific and Technological Innovation Project of Shandong Province

Natural Science Foundation of Shandong Province

Publisher

AIP Publishing

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