Конденсированные среды и межфазные границы (Mar 2018)
GRAPHOANALYTICAL ESTIMATE OF THE DYNAMIC CAPACITY OF GLAUCONITE IN THE JOINT SORPTION OF THE Cu (II), Ni (II), Zn (II)Сu(II), Ni(II), Zn(II) CATIONS
Abstract
Abstract. The paper proposes a calculation method to estimate the amount of adsorbate substance (N) and the dynamic capacity of the sorbent (Q) under the conditions of purifi cation from pollutants of fl owing solutions. The considered approaches are valid for using sorbents and removing sorbates of any nature from fl owing media, regardless of the volume fl ow rates of the eluate under laminar fl ow conditions. The method is based on the use of β-spline curves and is based on the properties of geometric continuity used in solving problems of geometric modelling by means of cubic polynomials. It allows: - calculating the values of the dynamic capacity Q at any time from the beginning of the sorption in the absence of an experimental estimate of the sorption coeffi cient ρτi - evaluating the calculated time of continuous operation of the sorbent until its replacement or regeneration. At room temperature, glauconiteQi values were obtained for Cu (II), Ni (II), Zn (II) cations at joint sorption as a function of the nature of the adsorbate with the account of the height of the adsorbate, the linear fl ow rate, and the arbitrary time interval from the beginning of the process. The relative sorption capacity of cations depending on the same factors was evaluated. It is shown that as the fl ow rate increases the dynamic capacity of the sorbent increases in the series: QNi(II)>QZn(II) >QСu(II)
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