177

  • Internet havola
  • DOI
  • UzSCI tizimida yaratilgan sana 10-03-2021
  • O'qishlar soni 175
  • Nashr sanasi 20-11-2020
  • Asosiy tilO'zbek
  • Sahifalar12-20
Kalit so'z
English

Abstract. The article discusses the issues of increasing the efficiency of low-temperature gas treatment units in the design of the gas condensate field arrangement system.

Currently, in the Republic of Uzbekistan, low-temperature processes for extracting valuable components of liquefied gas and gas condensate have been developed in the preparation of natural gas from gas condensate fields (GCF).

In connection with the commissioning of an increasing number of gas condensate fields, the problems of designing and operating systems for field gas treatment, increasing the efficiency of the LTS gas process at the plant of complex treatment gas are becoming increasingly important.

The occurrence of GCF natural gas with abnormally high reservoir pressure has raised a number of significant problems in developing methods and implementing their means of rational use of the free energy potential of the extracted gas.

Under these conditions, the largest field in the group under consideration is taken as the basis for gas treatment, so that it is economically profitable to use a complex technology that allows for gas drying by moisture and extraction of heavy hydrocarbons at all stages of development.

Uzbekistan has industrially developed a low-temperature process with a separation temperature of up to minus 80 °C for extracting liquefied gas from a propane-butane mixture (PBM) production unit.

 

Muallifning F.I.Sh. Lavozimi Tashkilot nomi
1 Shomutalov D.M. injenering АО «O’ZLITINEFTGAZ»
Havola nomi
1 1. Bekirov T. M. Some issues of improving the efficiency of technological installations in the final period of operation of gas condensate fields // EI. Ser.: Preparation, processing and use of gas. – M., 1990. – no. 4.
2 2. Ayrapetyan L. R., Uryupin V. V., Reconstruction of the integrated gas treatment plant Uchkyr. Issue 2 2007. Scientific and technical "Uzbek journal of oil and gas" NHC "Uzbekneftegaz". Tashkent. 2007.
3 3. Balyberdina I. T. Physical methods of processing and use of gas. – Moscow: Nedra, 1988.
4 4. Ivanyuk V. A. Turbo-Expander technologies for power generation // Sci.-tech. journal: Gas industry. – M., 2004. – No. 8. – Pp. 67-70.
5 5. Kafarov V. V., Glebov M. B. Mathematical modeling of the main processes of chemical production. – M.: Higher school, 1991. – 400 p.
6 6. Bekirov T. M., Murin V. I., Kabanov N. I. Some issues of fine gas purification From moisture and heavy hydrocarbons // Scientific and technical SB. of JSC Gazprom. Ser.: Gasification. Natural gas as a motor fuel, preparation, processing and use of gas. Energy Saving. – 1998. – № 9, 10. – Pp. 26-34.
7 7. Berlin M. A., Goryachenkov I. G., Volkov N. P. Processing of oil and natural gases. – M.: Chemistry, 1981. – 472 p.
8 8. Kurbanov A. N. Optimization of the temperature regime of the end degassing of the condensate of the Yamburgsky GCF // Sci.- tech. journal: Gas industry. – M., 2004. – No. 1. – P. 25-27.
9 9. Langenov G. A. Optimization of the gas Preparation process at the gas processing plant of the Valangesky deposits of the Urengoy OGCF // Sci.- tech. journal: Gas industry, Moscow, 2005, No. 4, pp. 48-49.
10 10. Li R. Ch., Li A. R. Technological solutions for the design of a propane - butane mixture Production facility on the territory of the desulfurization plant "Uchkyr"// introduction of advanced technologies-the basis for the development of the oil and gas industry in Uzbekistan. Republican scientific and technical conference of young scientists and specialists. April 20, 2018. -Tashkent, 2018. -Pp. 45-48.
11 11. Li R. CH., Ayrapetyan L. R., Uryupin V. V. Optimization of the process of obtaining propane-butane mixture in order to increase the production of liquefied gas // Actual problems of integration of science, education and production in the oil and gas industry: collection of reports to the Republic. scientific-practical Conf. October 19, 2006 – Tashkent, 2006. – Pp. 196-199
12 12. Li R. CH., Ayrapetyan L. R., Li A. R. Designing a propane-butane mixture Production unit at the desulfurization plant "Uchkyr"// COLLECTION of scientific papers of JSC "O'zlitineftgaz" in honor of "support for active entrepreneurship, innovative ideas and technologies". -Tashkent, 2018. -pp. 96-101.
13 13. Li R. CH., Ayrapetyan L. R., Abdurakhimov M. A. Development of low-temperature condensation technology in gas preparation at gas condensate fields // Scientific and technical "Uzbek journal of oil and gas".Tashkent, 2018, No. 1, Pp. 35-38.
14 14. Li R. CH., Abdurakhimov M. A., Isabaeva G. M., Kadirov M. M. Supply of CSR regeneration gases to USPS-3 to increase the production of liquefied gas // COLLECTION of scientific papers of JSC "O'zlitineftgaz" in honor of "support for active entrepreneurship, innovative ideas and technologies" -Tashkent, 2018.-P. 80-85.
15 15. Nazarov U. S., Li R. CH. Optimal operation of a low-temperature gas separation system using external cold // Uzbek journal of oil and gas. Tashkent, 2006, No. 1, Pp. 26-27.
16 16. Nazarov U. S. Modeling of management processes in the development of oil and gas fields. sciences'. – Tashkent: NPO "Cybernetics", 1995. – P. 1-35.
17 17. Podyuk V. G., Bekirov T. M., Ter-Sarkisov R. M., Samarin A. A. Improving the efficiency of technological installations // Sci.- tech. journal: Gas industry, Moscow, 1992, No. 6, pp. 30-31.
18 18. Tagiev V. G., Sakharov V. E. Mathematical description of dynamic modes of low-temperature gas separation process // RS. Ser.: processing of gas and gas condensate. 19. Teterev I. G., Sheshukov N. A., Nanivsky E. M. Management of gas production processes. – Moscow: Nedra, 1981. – 248 p
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