In manufacturing the cathode material of lithium battery, morphology, size and size distribution of NMC oxide are directly related to the packing efficiency, which influence its energy density in battery performance. For a high packing efficiency of battery, spherical and size-uniform NMC hydroxides are thus required, which is determined by agglomeration process in reaction crystallization. [1-2] So, understanding and investigating the agglomeration process is necessary to obtain the desired agglomerates of morphology, size and size distribution. [1-4] Therefore, the present study focused on the influence of periodic fluid fields of Batchelor flow on agglomeration of NMC hydroxide.
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