Thermodynamic Characteristics of the Reactions of Formation of Iron and Magnesium Humates in Aqueous Solution

T. A. Yarkova; Яркова Т. А.; A. M. Gyul’maliev; Гюльмалиев А. М.

doi:10.31857/S0023117723010103

Thermodynamic Characteristics of the Reactions of Formation of Iron and Magnesium Humates in Aqueous Solution

Authors: Yarkova T.A.¹, Gyul’maliev A.M.²
Affiliations:
1. MIREA Russian Technological University
2. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
Issue: No 4 (2023)
Pages: 23-30
Section: Articles
URL: https://journals.rcsi.science/0023-1177/article/view/140035
DOI: https://doi.org/10.31857/S0023117723010103
EDN: https://elibrary.ru/VVJPFE
ID: 140035

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Abstract
About the authors
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Abstract

The thermodynamic stability of iron and magnesium ions at different acidity of an aqueous medium was determined using chemical thermodynamics methods and Pourbaix diagrams. The temperature dependence of the thermodynamic functions of corresponding reactions was calculated. The thermodynamic feasibility of the reactions of replacing potassium and sodium ions in aqueous solutions of humic acid salts containing carboxyl and hydroxyl functional groups with iron and magnesium ions was established. The resulting water-soluble iron and magnesium humates can have a high potential for practical use.

Keywords

humic acids, water-soluble iron and magnesium humates, thermodynamic stability of cations, Pourbaix diagram, electrode potential

About the authors

T. A. Yarkova

MIREA Russian Technological University

Email: tat772003@list.ru
Moscow, 119571 Russia

A. M. Gyul’maliev

Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences

Author for correspondence.
Email: gyulmaliev@ips.ac.ru
Moscow, 119071 Russia

References

Попов А.И. Гуминовые вещества: свойства, строение, образование. СПб.: Изд-во СПбУ. 2004. 248 с.
Орлов Д.С. Химия почв. М.: Изд-во МГУ. 1992. 259 с.
Орлов Д.С. Гумусовые кислоты почв и общая теория гумификации. М.: Изд-во МГУ. 1990. 325 с.
Stevenson F.J. Humus Chemistry: Genesis, Composition, Reactions. New York: John Wiley&Sons, 1982. p. 443.
Хилько С.Л., Таперко Г.В., Рогатко М.И. // Вестн. НовГУ. Сер.: Технические науки. 2021. № 4 (125). С. 68. https://doi.org/10.34680/2076-8052.2021.4(125).68-71
Мишустин А.О., Щукин В.Б., Павлова О.Г., Ильясова Н.В. // Изв. Оренбургского гос. аграрн. ун-та. 2022. № 1 (93). С. 9. https://doi.org/10.37670/2073-0853-2021-93-1-9-14
Perdue E.M. // Geochim. Cosmochim. Acta. 1984. V. 48. № 7. P. 1435.
Яркова Т.А., Гюльмалиев А.М. // ХТТ. 2018. № 2. С. 17. [Solid Fuel Chemistry. 2018. V. 52. № 2. P. 73. https://doi.org/10.3103/S036152191802012X]https://doi.org/10.7868/S0023117718020044
Перминова И.В. Анализ, классификация и прогноз свойств гумусовых кислот. Дис. … д-ра хим. наук. М.: МГУ, 2000. 359 с.
Биохимия. / Под ред. Северина Е.С. 2004. 784 с.
HSC Chemistry 6. http://www.hsclchemistry.net/
Лиштван И.И., Круглицкий Н.Н., Третинник В.Ю. Физико-химическая механика гуминовых веществ. Мн.: Наука и техника, 1976. 264 с.
Гамаюнов Н.И., Косов В.И., Масленников Б.И. Ионообменные процессы и электрокинетические явления в набухающих природных и синтетических ионитах. Тверь: Изд-во ТГТУ, 1999. 155 с.