Vìsnik Odesʹkogo Nacìonalʹnogo Unìversitetu: Hìmìâ (Nov 2020)

EFFECT OF MODIFYING ADDITIVES ON CHEMOSORPTION OF SULFUR (IV) OXIDE BY FIBROUS MATERIAL IMPREGNATED WITH POLYETHYLENEPOLYAMINE

  • A. A.-A. Ennan,
  • R. E. Khoma,
  • R. M. Dlubovskiy,
  • Y. S. Zakharenko,
  • N. N. Abramova,
  • T. V. Mikhaylova,
  • D. O. Barbalat

DOI
https://doi.org/10.18524/2304-0947.2020.4(76).216927
Journal volume & issue
Vol. 25, no. 4(76)
pp. 56 – 73

Abstract

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The principal possibility of increasing of the absorption capacity of impregnated fibrous chemisorbents (IFCS) acid gases based on nitrogen-containing organic bases by introducing into impregnating solutions of some additives such as sodium chloride, potassium iodide, ethylenediaminetetraacetic acid disodium salt (EDTA), glycine, sodium and potassium carbonates was investigated. Under static conditions using a vacuum sorption unit with McBen-Bakr quartz spring scales the hydrophilicity of fibrous chemisorbents of acid gases based on polyester synthetic fibers impregnated with polyethylenepolyamine containing as modifiers of potassium, such as potassium modifiers, such as promoters sodium and potassium carbonates, glycine and the disodium salt of ethylenediaminetetraacetic acid was studied. It is shown that the introduction of these additives leads to a sharp increase in the hydrophilicity of the samples, which creates the preconditions for further more efficient chemisorption of sulfur(IV) oxide. Within the framework of the Brunauer-Emmett-Teller theory of polymolecular sorption, water vapor sorption isotherms are analyzed, the values of the monolayer capacity and the values of the sorption heat of water molecules in the first layer are determined. Under static and dynamic conditions, chemisorption of sulfur oxide (IV) by dry and moistened samples of chemisorbents was studied. It is established that the process of SO2 chemisorption can occur only in the presence of «free» water formed after the formation of the monolayer. It is shown that the introduction of hydrophilized additives leads to a significant increase in the absorption capacity of sulfur(IV) oxide in both static and dynamic conditions. The obtained results are planned to use in the development of theoretical bases for the creation of functional sorption filtering materials for respiratory purposes.

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