Top.Mail.Ru

Scientific and technical journal

«Oilfield engineering»

ISSN 0207-2351

Oilfield engineering
№3 (675), March 2025
Back to issue Order an article in the electronic library
The influence of natural gas moisture content on the technology of deep absorption drying

UDC: 661.183+66.074.31
DOI: -

Authors:

GAFAROVA E.B.1,
SVIRIDOV D.V.1,
MELNIKOV V.B.1

1 National University of Oil and Gas "Gubkin University", Moscow, Russia

Keywords: liquefied natural gas, adsorption drying, zeolites, dynamic activity, gas moisture content

Annotation:

The authors of the article study the influence of changes of natural gas moisture content on the process of deep adsorption drying in operational conditions of gas processing plants. The results of technological studies demonstrating the change of the adsorption cycle duration and other parameters of the technological process depending on the gas initial moisture content are analyzed. The data on the influence of industrial adsorbents characteristics on the drying process efficiency are presented. The obtained results can be used for developing recommendations on absorbers cyclograms operation optimization depending on the initial operational conditions.

Bibliography:

1. Shirokova G.S., Elistratov M.V. Tekhnologicheskie zadachi kompleksnoy ochistki prirodnogo gaza dlya polucheniya SPG // Gazovaya prom-st’. – 2011. – Spetsvypusk. – S. 11–15.

2. Mokhatab S., Mak J.Y., Valappil J.V. Handbook of Liquefied Natural Gas. Oxford. Elsevier Inc., 2014. – 624 р. – URL: https://www.gbv.de/dms/tib-ub-hannover/778193802.pdf

3. Mel’nikov V.B. Promyslovyy sbor i pererabotka gaza i gazovogo kondensata: uchebnik. – M.: RGU nefti i gaza (NIU) im. I.M. Gubkina, 2017. – 464 s.

4. Analiz vlagosoderzhaniya osushennogo prirodnogo gaza / O.A. Mukhambetova, A.V. Kulakov, N.A. Pivovarova, A.T. Pivovarov // Nauch. tr. Astakhan’NIPIgaza. – 2004. – № 6. – S. 28–31.

5. Adzhiev A.Yu., Moreva N.P., Dolinskaya N.I. Otechestvennye tseolity dlya glubokoy osushki gaza pri proizvodstve szhizhennogo prirodnogo gaza // NefteGazoKhimiya. – 2015. – № 3. – S. 34–38.

6. Tekhnologiya pererabotki prirodnogo gaza i gazokondensata: Spravochnik. V 2-kh ch. – M.: OOO "Nedra-Biznestsentr", 2002. – Ch. 1. – 517 s. – URL: https://www.geokniga.org/books/24312

7. Sravnitel’nye issledovaniya dinamicheskoy adsorbtsionnoy aktivnosti otechestvennykh i zarubezhnykh tseolitov / E.B. Gafarova, V.B. Mel’nikov, E.B. Fedorova, E.B. Makarova // Vest. Kuzbasskogo gosudarstvennogo tekhnich. un-ta. – 2024. – № 5(165). – S. 65–73. – DOI: 10.26730/1999-4125-2024-5-65-73

8. Analiz osnovnykh pokazateley protsessa adsorbtsionnoy osushki pri proizvodstve szhizhennogo prirodnogo gaza / E.B. Gafarova, V.B. Mel’nikov, N.P. Makarova, E.B. Fedorova // Neftepromyslovoe delo. – 2022. – № 1(637). – S. 61–65. – DOI: 10.33285/0207-2351-2022-1(637)-61-65

9. Idel’chik I.E. Aerogidrodinamika tekhnologicheskikh apparatov (Podvod, otvod i raspredelenie potoka po secheniyu apparatov). – M.: Mashinostroenie, 1983. – 351 s.

10. Osobennosti raboty ustanovok adsorbtsionnoy osushki gaza na mestorozhdeniyakh Kraynego Severa / V.V. Remizov, V.F. Zaynullin, L.S. Chugunov [i dr.]. – M.: IRTs Gazprom. – 1995.