Abstract
The paper has investigated the efficiency of high-gradient ferromagnetic matrices of a magnetic filter obtained by the method of magnetoelectrolysis at different parameters of the process using a magnetically controlled biosorbent based on the yeast S. cerevisiae and nanomagnetite. The paper has studied the morphology of matrices at different parameters of electric precipitation such as the value of the external magnetic field and magnetization conditions of the matrix base. We have measured quantitative indices of the operation of every type of matrices: maximum efficiency of extraction of the magnetically controlled biosorbent of ions of metals from wastewaters and the optimal time of the operation of manufactured matrices.
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