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The article discusses the main prospects for the technology of purifying natural gas
from acidic components and the problems of ensuring the purity of oil and gas products in accordance
with state standards. An increase in the degree of purification from H2S, CO2, elemental sulfur, carbonyl
sulfide, ethyl mercaptans (thiols), methyl mercaptan, carbon disulfide, sulfides, disulfides (dithioethers),
thiophene, sulfoxides and sulfones is considered. Also, the physicochemical properties of the absorbent
for the purification of sulfur compounds (generated during natural gas processing) are studied. Based
on the study of various absorbents (ethanolamine (EA), methylethanolamine (MEA), diethanolamine
(DEA), methyldiethanolamine (MDEA), DGA-diglycolamine and combined absorbents), the following
were identified: high sorption capacity, selective separation of no more than 20 mg/m3, corrosive
resistance to metals, low foaming, and they are often used in the production: MDEA and DEA
absorbents. Thus, the processing of high-sulfur natural gases containing sulfur is an urgent and
targeted task for the gas industry of the Republic of Uzbekistan, which has scientific and practical
meaning (for this, research must be carefully scrutinized). This concerns the development of new
absorbents, the introduction of a combined method of gas purification and increasing the efficiency of
technologies for purifying natural and secondary gases from sulfur compounds
 

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 14-08-2024
  • Количество прочтений 66
  • Дата публикации 14-08-2024
  • Язык статьиIngliz
  • Страницы10-13
English

The article discusses the main prospects for the technology of purifying natural gas
from acidic components and the problems of ensuring the purity of oil and gas products in accordance
with state standards. An increase in the degree of purification from H2S, CO2, elemental sulfur, carbonyl
sulfide, ethyl mercaptans (thiols), methyl mercaptan, carbon disulfide, sulfides, disulfides (dithioethers),
thiophene, sulfoxides and sulfones is considered. Also, the physicochemical properties of the absorbent
for the purification of sulfur compounds (generated during natural gas processing) are studied. Based
on the study of various absorbents (ethanolamine (EA), methylethanolamine (MEA), diethanolamine
(DEA), methyldiethanolamine (MDEA), DGA-diglycolamine and combined absorbents), the following
were identified: high sorption capacity, selective separation of no more than 20 mg/m3, corrosive
resistance to metals, low foaming, and they are often used in the production: MDEA and DEA
absorbents. Thus, the processing of high-sulfur natural gases containing sulfur is an urgent and
targeted task for the gas industry of the Republic of Uzbekistan, which has scientific and practical
meaning (for this, research must be carefully scrutinized). This concerns the development of new
absorbents, the introduction of a combined method of gas purification and increasing the efficiency of
technologies for purifying natural and secondary gases from sulfur compounds
 

Имя автора Должность Наименование организации
1 Aripdjanov O.Y. PhD, Associate Professor Tashkent Institute of Chemical Technology, Tashkent city
2 Khayrullaeva .Z. Master's student Tashkent Institute of Chemical Technology, Tashkent city
3 Abdumuminov .A. Bachelor Tashkent Institute of Chemical Technology, Tashkent city
Название ссылки
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5 9. Eder L.V., Filimonova I.V., Komarova A.V., Provornaya I.V., Shumilova S.I. Features of gas production and processing in Russia at the present stage. Gas industry, No. 11 (777), 2018. 10. Sordi E., Bullin J. / Kinetics of CO2 and MDEA with Phosphoric Acid// A.I. Ch.E. Journal. -March 2020. - Vol. 38. No. 3. - R. 455-460.
6 11. Sartori G., Savage D./Stericaily Hindered Amines for CO2 Removal from Gases // Ind. Eng. Chem. Fundam. -2023. - v. 22. No. 2. -p. 239-249. 12. O.Richardson., J.Connell/Some Generalizations about Processes to adsorb Acid Gases and Mercaptans// Ind. End. Chem. Process Des. Dev-Vol. -14. -No. 4. -2022. -p. -467-470.
7 13. S.A. Newman / Acid and Sour Gas Treating Processes (Latest date and methods for designing and Operating today S) // Gulft Publishing Company. - Houston. -USA. 2021. -p. -820. 14. GOST 22387.2-97. Natural flammable gases. Methods for determining hydrogen sulfide and mercaptan sulfur -2022.
8 15. Arzamasova G.S., Karmanov V.V. Solving complex issues of handling waste from natural gas purification from mechanical impurities. Ecology and scientific and technological progress. Urbanism. Materials of the XII-All-Russian scientific and practical conference of students, graduate students and young scientists. Perm, November 21, 2014. pp. 16-26.
9 16. Polozov M.B. Ecology of the oil and gas production complex // Educational manual. - Izhevsk: Udmurt University Publishing House, 2012. - 174 p. 17. Safin R.R., Ismagilova Z.F. Scheme of an environmentally friendly gas-chemical complex for processing sulfur-containing gases. Oil and Gas Business, 2010. pp. 1-7. 18. Abdallah Sofiane Berrouk, Richard Ochieng. Improved performance of the natural-gas-sweetening Benfield-HiPure process using process simulation // Fuel Processing Technology. Volume 127, November 2014, Pages 20-25.
10 19. Aripdjanov O.Y., Khayrullaeva D.Z., Kholmatov Sh.F., Kayumov J.S. The current state of technology development for gas purification from sulfur compounds and its future prospects UNIVERSUM: Texnicheskiye nauki, U55 Universum: texnicheskiye nauki: nauchniy jurnal №12 (117). Chast 8., M., Izd. MSNO», 2023, DOI- 10.32743/UniTech.2023.117.12.16381
11 20. Aripdjanov O.Y., Kholmatov Sh.F., J.S.Kayumov Synthesis and testing of solutions of composite absorbent based on nitrogen- and aminecontaining water-soluble polelectrolyte in the purification of natural gas from sulfur-containing components / International cientific Research Journal (WoS) ISSN: 2776-0979, Volume 4, Issue 12, December, 2023 SYNTHESIS AND TESTING OF SOLUTIONS OF A COMPOSITE ABSORBENT BASED ON NITROGEN- AND AMINECONTAINING WATER-SOLUBLE POLYELECTROLYTE IN THE PURIFICATION OF NATURAL GAS FROM SULFUR-CONTAINING COMPONENTS | Web of Scientist: International Scientific Research Journal (academiascience.org)
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