In this work,by establishing a three-dimensional physical model of a 1000-ton industrial multi-jet com-bustion reactor,a hexahedral structured grid was used to discretize the model.Combined with realizable k-8 model,eddy-dissipation-concept,discrete-ordinate radiation model,hydrogen 19-step detailed reac-tion mechanism,air age user-defined-function,velocity field,temperature field,concentration field and gas arrival time in the reactor were numerically simulated.The Euler-Lagrange method combined with the discrete-phase-model was used to reveal the flow characteristics of particles in the reactor,and based on this,the effects of the reactor aspect ratios,central jet gas velocity and particle size on the flow field characteristics and particle back-mixing degree in the reactor were investigated.The results show that with the decrease of aspect ratio in the combustion reactors,the velocity and temperature attenuation in the reactor are intensified,the vortex phenomenon is aggravated,and the residence time distribution of nanoparticles is more dispersed.With the increase in the central jet gas velocities in reactors,the vor-tex lengthens along the axis,the turbulence intensity increases,and the residence time of particles decreases.The back-mixing degree and residence time of particles in the reactor also decrease with the increase in particle size.The simulation results can provide reference for the structural regulation of nanoparticles and the structural design of combustion reactor in the process of gas combustion synthesis.

Key Laboratory for Ultrafine Materials of Ministry of Education,School of Materials Science and Engineering,East China University of Science and Technology,Shanghai 200237,China;Guangzhou Huifu Research Institute Co.Ltd.,Guangzhou 510665,China

[1]Jie Ju;Xianjian Duan;Bismark Sarkodie;Yanjie Hu;Hao Jiang;Chunzhong Li-.Numerical simulation of flow field and residence time of nanoparticles in a 1000-ton industrial multi-jet combustion reactor)[J].中国化学工程学报（英文版）,2022(11):86-99

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