INVESTIGATING THE ANTIFOAMING PROCESS IN NATURAL GAS AMINE TREATMENT
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Data on the study of the causes of foaming under the cleaning of harmful additives in the purification of natural gases from sour components are presented. The use of calcium soap, lanolin, potassium alkylsulfatooleate, sulfurized esters of ricinoleic acid, higher fatty alcohols, and water-insoluble amides to prevent foaming has been studied. The main properties of these absorbent compositions were studied in order to study the working conditions of the absorbent compositions obtained as a result of the research with amines currently used in gas processing plants, their chemical changes under the conditions of use, and the effect of these changes on their operational properties.
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1. Алигириева Р.Р. // Дис. ... канд. тех. наук, М., РГУ нефти и газа им. И.М. Губкина. 2017. 123 с.
2. Бусыгин И.Г. Оптимизация селективной МДЭА-очистки смеси газов / И.Г. Бусыгин, Н.В. Бусыгина //Газовая промышленность. 1997. № 6. С. 47–48.
3. Берлин М.А., Горченков В.Г., Капралов В.П. Квалифицированная первичная переработка нефтяных и природных углеводородных газов. - Краснодар: Советская Кубань. -2012. -520с.
4. Бусыгина Н.В. Технология переработки природного газа и газового конденсата /Н.В. Бусыгина, И.Г. Бусыгин. Оренбург: Газпромнефть. 2002. 432 с.
5. Вильданов А.Ф. //Жидкофазная каталитическая окислительная демеркаптанизация нефтей и нефтепродуктов]: дисс. д-ра техн. наук: 05.17.04 /Вильданов Азат Фаридович. Казань. 1998. 380 с.
6. Maxmudov, N. N., & Yuldashev, T. R. Neft va gaz qazib olish texnologiyasi va texnikasi. Darslik, Toshkent, Fan va texnologiya nashriyoti-2015, 392.
7. Yuldashev, T. R., & Мakhmudov M, J. (2023). Cleaninng of Natural from Sobe Component. Journal of Siberian Federal University. Engineeng & Technologies, 16(3), 296-306.
8. Makhmudov, M. J., & Yuldashev, T. R. (2023). Cleaning of Industrial Emissions from Gas and Dispersive Particles.
9. Юлдашев, Т. Р. (2023). ОЧИСТКА ГАЗА ОТ КИСЛЫХ КОМПОНЕНТОВ И ПУТИ ЕЕ РЕШЕНИЯ. In Научно-технический прогресс. Задачи и их решения (pp. 150-155).
10. Юлдашев, Т. Р. (2023). ОСНОВА ОБОРУДОВАНИЯ, ИСПОЛЬЗУЕМОГО В ПРОЦЕССЕ ОЧИСТКИ ГАЗОАБСОРБЦИОННОЙ ТЕХНОЛОГИИ. Universum: технические науки, (5-6 (110)), 20-24.
11. Юлдашев, Т. Р. (2023). АКТУАЛЬНЫЕ ПРОБЛЕМЫ АМИННОЙ ОЧИСТКИ ПРИРОДНЫХ ГАЗОВ И ПУТИ ИХ ИСПОЛЬЗОВАНИЯ. Universum: технические науки, (4-6 (109)), 24-27.
12. Yuldashev, T. R. (2023). TABIIY GAZLARNI VODOROD SULFID VA UGLEROD OKSIDLARIDAN TOZALASHDA QO‘LLANILADIGAN ABSORBENTLAR. Sanoatda raqamli texnologiyalar/Цифровые технологии в промышленности, 1(1), 92-99.
13. Yuldashev, T. R. (2023). TABIIY GAZNI NORDON KOMPONENTLARDAN TOZALASHDA SELEKTIVLIGI YUQORI BO ‘LGAN AMINLI ERITMALARDAN FOYDALANISHNING SAMARADORLIGI. Sanoatda raqamli texnologiyalar/Цифровые технологии в промышленности, 1(1), 86-92.
14. Makhmudov, M. J., & Yuldashev, T. R. (2023). Cleaning of Natural Gases from Sour Components.
15. Юлдашев, Т. Р. (2022). АБСОРБЕНТЫ ДЛЯ ОЧИСТКИ ПРИРОДНЫХ ГАЗОВ ОТ Н2S И СО2. THEORY AND ANALYTICAL ASPECTS OF RECENT RESEARCH, 1(10), 72-74.