Evaluation of factors affecting the sorption of sulfur dioxide by FIBAN fibrous anion exchangers-Reference-Cited by-同舟云学术

Evaluation of factors affecting the sorption of sulfur dioxide by FIBAN fibrous anion exchangers

Published:2021-02-10 Issue:1 Volume:57 Page:101-108
ISSN:2524-2342
Container-title:Proceedings of the National Academy of Sciences of Belarus, Chemical Series
language:
Short-container-title:Vescì Akademìì navuk Belarusì. Seryâ himičnyh navuk

Author:

Medyak G. V.¹,Shunkevich A. A.¹,Polikarpov A. P.¹,Pansevich V. V.¹,Akulich Z. I.¹

Affiliation:

1. Institute of Physical Organic Chemistry of the National Academy of Sciences of Belarus

Abstract

The sorption of sulfur dioxide from the air by the fibrous anion exchangers containing amino groups of different structure and basicity has been comparatively investigated. The most effective sorbents of sulfur dioxide are the anion exchangers with ternary amino groups, which have a high exchange capacity (more than 5 meq/g) and additionally contain secondary amino groups. The anion exchangers with high-base amino groups absorb sulfur dioxide at low relative humidity (30 %) but have low dynamic sorption capicity (up to 1.3 meq/g). The anion exchangers with primary and secondary amino groups absorb sulfur dioxide at high relative humidity (more than 54 %) if their cation exchange capacity is several times less than the anion exchange capacity.

Publisher

Publishing House Belorusskaya Nauka

Subject

Inorganic Chemistry,Organic Chemistry,Chemistry (miscellaneous),Analytical Chemistry

Reference16 articles.

1. Standards for maximum permissible concentrations of pollutants in the atmospheric air. Resolution of the Ministry of health of the Republic of Belarus. November 8, 2016, no. 113. Available at: http://minzdrav.gov.by/ru/dlya-spetsialistov/normativno-pravovaya-baza/tekhnicheskie-normativnye-pravovye-akty/teksty-tekhnicheskikh-normativnykh-aktov/atmosfernyy-vozdukh-i-vozdukh-zakrytykh-pomeshcheniy-sanitarnaya-okhrana-vozdukha.php (accessed 19 December 2020) (in Russian).

2. Hygiene standard “Maximum permissible concentrations of harmful substances in the air of the working area”. Resolution of the Ministry of health of the Republic of Belarus. October 11, 2017, no. 92. Available at: https://pravo.by/upload/docs/op/W21732492p_1510174800.pdf (accessed 19 December 2020) (in Russian).

3. Vulih A. I., Aloviaynikov A. A., Nikandrov G. A. A new field of application of ion-exchangers is gas purification. Ionnyj obmen: Sbornik statei [Ion exchange. Proceeding of the USSR Academy of Sciences]. Moscow, Nauka Publ., 1981, pp. 214-229 (in Russian).

4. Chikin G. A., Myagkoi Q. N. Ion exchangers in the gas sorption technologies. Ion exchange methods of substances purification. Voronezh, VGU Publ., 1984, pp. 326-367 (in Russian).

5. Soldatov V. S., Elinson I. S., Shunkevich A. A. Application of fibrous ion exchangers in air purification from acidic impurities. Hydrometallurgy'94. Dordrecht, Springer, 1994, pp. 837-855. https://doi.org/10.1007/978-94-011-1214_57

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