CHEMICAL STABILITY OF IONITE PRODUCED ON THE BASIS OF CHLORINATED POLYPROPYLENE

156

This article presents studies of the chemical resistance of a new aminecontaining anion exchange resin based on chlorinated polypropylene. The chemical stability of modified ion exchanger of chlorinated polypropylene (CPP) with polyethylenepolyamine (PP) and industrial ion exchanger APFC-45 (4-VP + UV-5) was studied in various aggressive environments. HPP with PP can compete with widely used ion exchangers, because resistant to strong chemicals. Also, from the obtained results it can be seen that the ion exchange resin obtained on the basis of CSP fully complies with the requirements of chemical resistance in relation to a solution of various strong oxidizing agents and alkalis and can be used in industrial enterprises. The physicochemical parameters of the synthesized ion exchanger were studied and these indicators were compared with the AN-31 anion exchanger used in industry, compared with the parameters obtained, it is almost close to the parameters of the AN-31 anion exchanger used in industry, which indicates that it can compete with this anion exchanger.

Name of journalTechnical science and innovation
Number of edition2022, №3(13)
View count156

Web Address

DOI

Date of creation in the UzSCI system04-11-2022

Read count156

Date of publication30-09-2022

Main LanguageIngliz

Pages31-36

Tags

polypropylene

ionite

static exchange capacity

polyethylenepolyamine

chemical stability

chlorinated polypropylene

English

This article presents studies of the chemical resistance of a new aminecontaining anion exchange resin based on chlorinated polypropylene. The chemical stability of modified ion exchanger of chlorinated polypropylene (CPP) with polyethylenepolyamine (PP) and industrial ion exchanger APFC-45 (4-VP + UV-5) was studied in various aggressive environments. HPP with PP can compete with widely used ion exchangers, because resistant to strong chemicals. Also, from the obtained results it can be seen that the ion exchange resin obtained on the basis of CSP fully complies with the requirements of chemical resistance in relation to a solution of various strong oxidizing agents and alkalis and can be used in industrial enterprises. The physicochemical parameters of the synthesized ion exchanger were studied and these indicators were compared with the AN-31 anion exchanger used in industry, compared with the parameters obtained, it is almost close to the parameters of the AN-31 anion exchanger used in industry, which indicates that it can compete with this anion exchanger.

Tags

polypropylene

ionite

static exchange capacity

polyethylenepolyamine

chemical stability

chlorinated polypropylene

№ Author name position Name of organisation

1 Khaydarov I.N. teacher TSTU

2 Khasanov O.K. teacher TSTU

3 Ismailov R.I. teacher TSTU

№ Name of reference

1 E. E. Ergozhin. New method of the synthesis of aminophenolic ionites and study of ion sorption of non-ferrous metals and iodine. “Reactive and functional polymers”, 2005. 113

2 G.J. Hwang., H. Ohya. Preparation of anion exchange membrane based on block copolymers. Part II: the effect of the formation of macroreticular structure on the membrane properties. “Journal of membrane science”, 1998. 163.

3 H. Inoue., K. Kaibara., N. Ohta., S. Nakabo., A. Fujita., H. Kimizuka. Ion transport across charged ultrafiltration membrane. “Memoirs of the faculty of science (Kyushu University)”, 1988. 137.

4 L. Breitbach., E. Hinke., E. Staude. Heterogeneous functionalizing of polysulfone membranes. “Die angewandte makromolekulare chemie”, 1991. 183

5 K.E. Kinzer., D.R. Lloyd., J.P. Wightman., J.E. Mcgrath. Asymmetric membrane preparation from nonsolvent casting systems. “Desalination”, 1988. 327.

6 E.E. Ergojin., T.K. Chalov., T.B. Kovrigina., E.Y. Pryatko., E.A. Melnikov. Chemical-free wastewater treatment of petrochemical production with minimal discharge. “Water: chemistry and ecology”, 2018. 75.

7 M. Kołtowski., B. Charmas., J. Skubiszewska-Zięba., P. Oleszczuk. Effect of biochar activation by different methods on toxicity of soil contaminated by industrial activity. “Ecotoxicology and environmental safety”, 2017. 119.

8 S.D. Filippovich., Z.I. Akulich., A.A. Shunkevich., V.I. Grachek. New fibrous anion exchangers based on polyacrylonitrile fibers. “Bulletin of the Academy of Sciences of Belarus”, 2014. 81

9 R.I. Soria., S.A. Rolfe., M.P. Betancourth., S.F. Thornton. The relationship between properties of plant-based biochars and sorption of Cd(II), Pb(II) and Zn(II) in soil model systems. “Heliyon”, 2020. 5388

10 X. Liu., G. Li., C. Chen. “Banana stem and leaf biochar as an effective adsorbent for cadmium and lead in aqueous solution”, 2022.

11 M. Suleman., Z. Muhammad., A. Ahmed., M. Rashid., S. Hussain., A. Razzaq., N.A. Mohidem., T. Fazal., B. Haider., Y.K. Park. Castor leaves-based biochar for adsorption of safranin from textile wastewater. “Sustainability”, 2021.

12 J. Zhang., J. Zhang., M. Wang., Sh. Wu., H. Wang., N. Niazi., Y. Man., P. Christie., Sh. Shan., M. Wong. Effect of tobacco stem-derived biochar on soil metal immobilization and the cultivation of tobacco plant. “Journal of soils and sediments”, 2019

13 O.Kh. Khasanov., I.N. Khaydarov., N.G. Valeeva., R.I. Ismailov. Study of the properties and structure of anion resin based on chlorinated polypropylene using modern spectral methods. “Bulletin of the National University of Uzbekistan”, 2022. 416.

14 O.Kh. Khasanov., D.S. Isomitdinova., R.I. Ismailov. Physical and chemical properties of the ion exchanger obtained on the basis of chlorinated polypropylene. “II-International scientific and scientific-technical conference on innovative techniques and technologies in agriculture problems and activities in the food network”, 2022. 157

15 O.Kh. Khasanov., I.N. Khaydarov., R.I. Ismailov. Investigation of the optimal parameters for obtaining a new anion resin based on chlorinated polypropylene. “Universum: chemistry and biology”, 2022. 64.

Waiting

№	Author name	position	Name of organisation
1	Khaydarov I.N.	teacher	TSTU
2	Khasanov O.K.	teacher	TSTU
3	Ismailov R.I.	teacher	TSTU

№	Name of reference
1	E. E. Ergozhin. New method of the synthesis of aminophenolic ionites and study of ion sorption of non-ferrous metals and iodine. “Reactive and functional polymers”, 2005. 113
2	G.J. Hwang., H. Ohya. Preparation of anion exchange membrane based on block copolymers. Part II: the effect of the formation of macroreticular structure on the membrane properties. “Journal of membrane science”, 1998. 163.
3	H. Inoue., K. Kaibara., N. Ohta., S. Nakabo., A. Fujita., H. Kimizuka. Ion transport across charged ultrafiltration membrane. “Memoirs of the faculty of science (Kyushu University)”, 1988. 137.
4	L. Breitbach., E. Hinke., E. Staude. Heterogeneous functionalizing of polysulfone membranes. “Die angewandte makromolekulare chemie”, 1991. 183
5	K.E. Kinzer., D.R. Lloyd., J.P. Wightman., J.E. Mcgrath. Asymmetric membrane preparation from nonsolvent casting systems. “Desalination”, 1988. 327.
6	E.E. Ergojin., T.K. Chalov., T.B. Kovrigina., E.Y. Pryatko., E.A. Melnikov. Chemical-free wastewater treatment of petrochemical production with minimal discharge. “Water: chemistry and ecology”, 2018. 75.
7	M. Kołtowski., B. Charmas., J. Skubiszewska-Zięba., P. Oleszczuk. Effect of biochar activation by different methods on toxicity of soil contaminated by industrial activity. “Ecotoxicology and environmental safety”, 2017. 119.
8	S.D. Filippovich., Z.I. Akulich., A.A. Shunkevich., V.I. Grachek. New fibrous anion exchangers based on polyacrylonitrile fibers. “Bulletin of the Academy of Sciences of Belarus”, 2014. 81
9	R.I. Soria., S.A. Rolfe., M.P. Betancourth., S.F. Thornton. The relationship between properties of plant-based biochars and sorption of Cd(II), Pb(II) and Zn(II) in soil model systems. “Heliyon”, 2020. 5388
10	X. Liu., G. Li., C. Chen. “Banana stem and leaf biochar as an effective adsorbent for cadmium and lead in aqueous solution”, 2022.
11	M. Suleman., Z. Muhammad., A. Ahmed., M. Rashid., S. Hussain., A. Razzaq., N.A. Mohidem., T. Fazal., B. Haider., Y.K. Park. Castor leaves-based biochar for adsorption of safranin from textile wastewater. “Sustainability”, 2021.
12	J. Zhang., J. Zhang., M. Wang., Sh. Wu., H. Wang., N. Niazi., Y. Man., P. Christie., Sh. Shan., M. Wong. Effect of tobacco stem-derived biochar on soil metal immobilization and the cultivation of tobacco plant. “Journal of soils and sediments”, 2019
13	O.Kh. Khasanov., I.N. Khaydarov., N.G. Valeeva., R.I. Ismailov. Study of the properties and structure of anion resin based on chlorinated polypropylene using modern spectral methods. “Bulletin of the National University of Uzbekistan”, 2022. 416.
14	O.Kh. Khasanov., D.S. Isomitdinova., R.I. Ismailov. Physical and chemical properties of the ion exchanger obtained on the basis of chlorinated polypropylene. “II-International scientific and scientific-technical conference on innovative techniques and technologies in agriculture problems and activities in the food network”, 2022. 157
15	O.Kh. Khasanov., I.N. Khaydarov., R.I. Ismailov. Investigation of the optimal parameters for obtaining a new anion resin based on chlorinated polypropylene. “Universum: chemistry and biology”, 2022. 64.