Везде

RAS Chemistry & Material ScienceЖурнал физической химии Russian Journal of Physical Chemistry

  • ISSN (Print) 0044-4537
  • ISSN (Online) 3034-5537

Calculating Coefficients of the Gas Hydrate Distribution of CO2 and H2S when Removing Them from a Methane-Containing Gas Mixture

You can
PII
10.31857/S0044453723040192-1
DOI
10.31857/S0044453723040192
Publication type
Status
Published
Authors
M.S. Kudryavtseva
  • Affiliation: Lobachevsky State University
Volume/ Edition
Volume 97 / Issue number 4
Pages
481-485
Abstract
A study is performed of the effect process temperature and pressure have on the distribution of CO2 and H2S gas hydrate in a model methane-containing gas mixture of CH4 (89.00 mol %)–CO2 (5.00 mol %)–n-C4H10 (3.00 mol %)–N2 (2.00 mol %)–H2S (1.00 mol %) containing components of natural gas. Modeling is done at low (4.00 MPa) and high (8.00 MPa) pressures in the 272.15–278.15 K range of temperatures. The temperature dependences of the coefficients of the gas hydrate distribution of natural gas components are shown to differ. The maximum coefficients of the gas hydrate distribution of CO2 and H2S are 1.24 and 31.83, respectively, at a process temperature of 272.15 K and a pressure of 8.00 MPa. It is found that n-C4H10 in natural gas lowers the coefficient of the gas hydrate distribution of CO2. It is concluded that natural gas deposits with low contents of n-C4H10 must be used to effectively concentrate CO2 in the gas hydrate phase.
Keywords
газовые гидраты коэффициент газогидратного распределения диоксид углерода сероводород
Date of publication
12.09.2025
Year of publication
2025
Number of purchasers
0
Views
6

References

  1. 1. Афанасьев А.И., Афанасьев Ю.М., Бекиров Т.М. и др. Технология переработки природного газа и конденсата. М.: Недра, 2002. 517 с.
  2. 2. Mokhatab S., Poe W.A., Mak J.Y. Handbook of Natural Gas Transmission and Processing: Principles and Practices. 4th ed. Cambridge: Gulf Professional Publishing, 2018. 862 p.
  3. 3. Speight J.G. Natural Gas: a Basic Handbook. 2nd ed. Cambridge: Gulf Professional Publishing, 2018. 462 p.
  4. 4. Hassanpouryouzband A., Joonaki E., Vasheghani Farahani M. et al. // Chem. Soc. Rev. 2020. V. 49. P. 5225.
  5. 5. Макогон Ю.Ф. Гидраты природных газов. М.: Недра, 1974. 208 с.
  6. 6. Бык С.Ш., Макогон Ю.Ф., Фомина В.И. Газовые гидраты. М.: Химия, 1980. 296 с.
  7. 7. Castellani B., Rossi F., Filipponi M. et al. // Biomass Bioenergy. 2014. V. 70. P. 330.
  8. 8. Kim K., Kim K.S., Lee J.E. et al. // Sep. Purif. Technol. 2018. V. 200. P. 29.
  9. 9. Sun Z.G., Fan S.S., Guo K.H. et al. // J. Chem. Eng. Data. 2002. V. 47. № 2. P. 313.
  10. 10. Chen L.T., Sun C.Y., Nie Y.Q. et al. // Ibid. 2009. V. 54. № 5. P. 1500.
  11. 11. Kakati H., Mandal A., Laik S. // J. Energy Chem. 2016. V. 25. № 3. P. 409.
  12. 12. Kumar R., Linga P., Moudrakovski I. et al. // AIChE J. 2008. V. 54. № 8. P. 2132.
  13. 13. Seo Y., Kang S.P., Lee J. et al. // J. Chem. Eng. Data. 2011. V. 56. № 5. P. 2316.
  14. 14. Broseta D., Dicharry C., Torré J.-P. // Gas Hydrates 2: Geoscience Issues and Potential Industrial Applications. 2018. P. 285.
  15. 15. Ricaurte M., Dicharry C., Broseta D. et al. // Ind. Eng. Chem. Res. 2013. V. 52. № 2. P. 899.
  16. 16. Kamata Y., Oyama H., Shimada W. et al. // Jpn. J. Appl. Phys. 2004. V. 43. № 1R. P. 362.
  17. 17. Skiba S., Chashchin D., Semenov A. et al. // Int. J. Hydrog. Energy. 2021. V. 46. № 65. P. 32904.
  18. 18. Le Quang D., Le Quang D., Bouillot B. et al. // Fluid Phase Equilib. 2016. V. 413. P. 10.
  19. 19. Фык М.И., Хрипко Е.И. Разработка и эксплуатация нефтяных и газовых месторождений. Харьков: Фолио, 2015. 301 с.
  20. 20. Sloan E.D., Koh C.A. Clathrate Hydrates of Natural Gases. 3rd ed. Boca Raton: CRC Press, 2008. 721 p.
  21. 21. Lal B., Nashed O. Chemical Additives for Gas Hydrates. 1st ed. Cham: Springer, 2020. 94 p.
  22. 22. John V.T., Holder G.D. // J. Phys. Chem. 1981. V. 85. № 13. P. 1811.
  23. 23. Сергеева М.С., Петухов А.Н., Шаблыкин Д.Н. и др. // Журн. физ. химии. 2019. Т. 93. № 11. С. 1737.
  24. 24. Holder G.D., John V.T. // Fluid Phase Equilib. 1983. V. 14. P. 353.
  25. 25. Воротынцев В.М., Малышев В.М. // Успехи химии. 1998. Т. 67. № 1. С. 87.
  26. 26. Sergeeva M.S., Mokhnachev N.A., Shablykin D.N. et al. // J. Nat. Gas Sci. Eng. 2021. V. 86. P. 103740.
  27. 27. McKoy V., Sinanoğlu O. // J. Chem. Phys. 1963. V. 38. № 12. P. 2946.
  28. 28. Булейко В.М., Григорьев Б.А., Истомин В.А. // Вести газовой науки. 2016. Т. 4. № 28. С. 108.
QR
Translate

Индексирование

Scopus

Scopus

Scopus

Crossref

Scopus

Higher Attestation Commission

At the Ministry of Education and Science of the Russian Federation

Scopus

Scientific Electronic Library