Thermodynamic Conditions for the Formation of CO2 Hydrate upon Injection of Carbon Dioxide into the Formation Containing Methane Hydrate

 
PIIS056852810001798-8-1
DOI10.31857/S056852810001798-8
Publication type Article
Status Published
Authors
Affiliation:
Journal nameIzvestiia Rossiiskoi akademii nauk. Mekhanika zhidkosti i gaza
EditionIssue 5
Pages103-112
Abstract

    

Keywords
Received17.10.2018
Publication date24.11.2018
Number of characters852
Cite   Download pdf To download PDF you should sign in
Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

views: 455

Readers community rating: votes 0

1. Ohgaki K., Takano K., Sangawa H., Matsubara T., Nakano Sh. Methane exploitation by carbon dioxide from gas hydrates-phase equilibria for CO2-CH4 mixed hydrate system // J. Chem. Eng. Jpn. 1996. V. 29. P. 478–483.

2. Ota M., Morohashi K., Abe Y., Watanabe M., Smith R. L., Jr., Inomata H. Replacement of CH4 in the hydrate by use of liquid CO2 // Energy Conversation and Management. 2005. V. 46. P. 1680–1691.

3. Ota M., Saito T., Aida T., Watanabe M., Sato Y., Smith R. L., Jr., Inomata H. Macro and microscopic CH4–CO2 replacement in CH4 hydrate under pressurized CO2 // AIChE Journal. 2007. V. 53. P. 2715–2721.

4. Goel N. In situ methane hydrate dissociation with carbon dioxide sequestration: Current knowledge and issues // J. Petrol. Sci. Eng. 2006. V. 51. P. 169–184.

5. White M. D., Wurstner S. K., McGrail B. P. Numerical studies of methane production from Class 1 gas hydrate accumulations anhanced with carbon dioxide injection // Marine and Petroleum Geology. 2011. V. 28. P. 546–560.

6. Tegze G., Granasy L., Kvamme B. Phase field modeling of CO2 hydrate conversation into CO2 hydrate in the presence of liquid CO2 // Phys. Chem. Chem. Phys. 2007. V. 9. P. 3104–3111.

7. Zhou X., Fan S., Du J. Determination of appropriate condition on replacing from hydrate with carbon dioxide // Energy Conversation and Management. 2008. V. 49. P. 2124–2129.

8. Yuan Q., Sun Ch.-Y., Yang X., Ma P.-Ch., Ma Zh.-W., Liu B., Ma Q.-L., Yang L.-Y., Chen G.-J. Recovery of methane from hydrate reservoir with gaseous carbon dioxide using a three-dimensional middle-size reactor // Energy. 2012. V. 40. P. 47–58.

9. Bai D., Zhang X., Chen G., Wang W. Replacement mechanism of methane hydrate with carbon dioxide from microsecond molecular dynamics simulations // Energy Environ. Sci. 2012. V. 5. P. 7033–7041.

10. Tsypkin G. G. Matematicheskaya model' dissotsiatsii gazovykh gidratov, sosuschestvuyuschikh s gazom v plastakh // Dokl. RAN. 2001. T. 381. № 1. S. 56–59.

11. Tsypkin G. G. Obrazovanie gidrata uglekislogo gaza pri ego inzhektsii v istoschennoe mestorozhdenie uglevodorodov // Izv. RAN. MZhG. 2014. № 6. S. 101–108.

12. Tsypkin G. G. Obrazovanie gidrata pri inzhektsii zhidkoj dvuokisi ugleroda v plast, nasyschennyj metanom i vodoj // Izv. RAN. MZhG. 2016. № 5. S. 99–107.

13. Shagapov V. Sh., Khasanov M. K. Rezhimy vosstanovleniya metana iz gakhogidrata pri inzhektsii teplogo dioksida ugleroda v poristuyu sredu // Teplofizika vysokikh temperatur. 2017. T. 55. № 5. S. 753–761.

14. Khasanov M. K. Matematicheskaya model' obrazovaniya gidrata dioksida ugleroda pri inzhektsii uglekislogo gaza metanogidratnyj plast // Teoreticheskie osnovy khimicheskoj tekhnologii. 2017. T. 51. № 5. S. 499–509.

15. Tsypkin G. G., Calore C. Influence of capillary forces on water injection into hot rock, saturated with superheated vapour // Int. J. Heat and Mass Transfer. 2007. V.20. P. 3195–3202.

16. Tsypkin G. G. Formirovanie nepronitsaemogo sloya pri dissotsiatsii gidrata metana v poristoj srede // Izv. RAN. MZhG. 2017. № 5. S. 65–73.

Система Orphus

Loading...
Up