Open Access
Issue
E3S Web Conf.
Volume 280, 2021
Second International Conference on Sustainable Futures: Environmental, Technological, Social and Economic Matters (ICSF 2021)
Article Number 07011
Number of page(s) 8
Section Sustainable Materials and Technologies
DOI https://doi.org/10.1051/e3sconf/202128007011
Published online 30 June 2021
  1. Puhach, V.: Teoretychni zasady staloho nadrokorystuvannia ( Theoretical basis of sustainable subsoil use). Environmental Economics and Sustainable Development, 45–48 (2014) http://ecops.kiev.ua/files/2014/15_PUHACH.pdf [Google Scholar]
  2. Pysmennyi, S., Fedko, M., Shvaher, N., Chukharev, S.: Mining of rich iron ore deposits of complex structure under the conditions of rock pressure development. E3S Web of Conf. 201, 01022 (2020). doi: 10.1051/e3sconf/202020101022 [Google Scholar]
  3. Shvaher, N., Komisarenko, T., Chukharev, S., Panova S.: Annual production enhancement at deep mining. E3S Web of Conf. 123, 01043 (2019). doi.: 10.1051/e3sconf/201912301043 [Google Scholar]
  4. Li, G., Tang, B., Meng, Y.-F., Wei, N., Li, Y.-J., Wang, G.-F.: Analysis of retrograde condensation behavior and impacts of gas-condensate reservoirs gas drilling: A case study of gas-condensate reservoir in block D. Nat. Gas Geosci. 25(10), 1615–1619 (2014). doi: 10.11764/j.issn.1672-1926.2014.10.1615 [Google Scholar]
  5. Paredes, J.E., Perez, R., Larez, C.J.: Correlation To Predict and Validate the Maximum Retrograde Condensation in Gas Condensate Reservoirs. (Society of Petroleum Engineers, 2012), https://www.onepetro.org/conference-paper/SPE-158494-MS. Accessed 1 January 2012 [Google Scholar]
  6. Wang, Z., Zhu, S., Zhou, W., Liu, H., Hu, Y., Guo, P., Du, J., Ren, J.: Experimental research of condensate blockage and mitigating effect of gas injection. Petroleum 4(3), 292–299 (2018). doi.: 10.1016/j.petlm.2018.03.008 [Google Scholar]
  7. Joonaki, E., Hassanpouryouzband, A., Burgass, R., Hase, A., Tohidi, B.: Effects of Waxes and the Related Chemicals on Asphaltene Aggregation and Deposition Phenomena: Experimental and Modeling Studies. ACS omega 5(13), 7124–7134 (2020). https://doi.org/10.1021/acsomega.9b03460 [CrossRef] [PubMed] [Google Scholar]
  8. Azevedo, L.F.A., Teixeira, A.M.: A Critical Review of the Modeling of Wax Deposition Mechanisms. Pet Sci Technol 21(3-4), 393–408 (2003). doi.: 10.1081/LFT-120018528 [Google Scholar]
  9. Theyab, M.A.: Wax deposition process: mechanisms, affecting factors and mitigation methods. Open Access J. Sci. 2(2), 112–118 (2018). doi: 10.15406/oajs.2018.02.00054 [Google Scholar]
  10. Babadagli, T.: Development of mature oil fields – A review. J. Pet. Sci. Eng. 57(3-4), 221–246 (2007). doi.: 10.1016/j.petrol.2006.10.006. [Google Scholar]
  11. Thomas, S.: Enhanced Oil Recovery – An Overview. Oil Gas Sci. Technol. 63(1), 9–19 (2007). doi: 10.2516/ogst:2007060 [Google Scholar]
  12. Parker, M.E., Meyer, J.P., Meadows, S.R.: Carbon Dioxide Enhanced Oil Recovery Injection Operations Technologies. Energy Procedia 1(1), 3141–3148 (2009). doi: 10.1016/j.egypro.2009.02.096 [Google Scholar]
  13. Perera, M.S.A., Gamage, R.P., Rathnaweera, T.D., Ranathunga, A.S., Koay, A., Choi, X.: A Review of CO2-Enhanced Oil Recovery with a Simulated Sensitivity Analysis. Energies 9, 481 (2016). doi.: 10.3390/en9070481 [Google Scholar]
  14. Mansour, E.M., Al-Sabagh, A.M., Desouky, S.M., Zawawy, F.M., Ramzi, M.: A laboratory investigation of carbon dioxide-enhanced oil recovery by focusing on CO2-oil physical properties. Egypt. J. Pet. 28(1), 21–26 (2019). doi.: 10.1016/j.ejpe.2018.10.004. [Google Scholar]
  15. Bennion, D.B., Thomas, F.B.: The use of carbon dioxide as an enhanced recovery agent for increasing heavy oil production. Paper presented at the Joint Canada/Romania heavy oil symposium, Alberta Oil Sands Technology and Research Authority, Sinaia (Romania), 7-13 Mar 1993 [Google Scholar]
  16. Heddle, G., Herzog, H., Klett, M. (eds): The economics of CO2 storage (Massachusetts Institute of Technology, USA, 2003). [Google Scholar]
  17. Truhina, O.S., Sintsov, I.A.: Opyit primeneniya uglekislogo gaza dlya povyisheniya nefteotdachi plastov. (Experience of using carbon dioxide for enhanced oil recovery). Uspehi sovremennogo estestvoznaniya. 3, 205–209 (2016). URL: http://www.naturalsciences. ru/ru/article/view?id=35849 [Google Scholar]
  18. Dmytrenko, V., Zezekalo, I.: Vplyv vuhlekyslotnykh solei amoniiu na filtratsiini vlastyvosti porid pryvybiinoi zony plasta (Influence of carbonic acid ammonium salts on the filtration properties of bottom-hole formation zone ). Prospecting and Development of Oil and Gas Fields 1(70), 70–76 (2019). doi: https://doi.org/10.31471/1993-9973-2019-1(70)-70-76 [Google Scholar]
  19. McBride-Wright, M., Maitland, G.C., Trusler, J.P.M.: Viscosity and Density of Aqueous Solutions of Carbon Dioxide at Temperatures from (274 to 449) K and at Pressures up to 100 MPa. J. Chem. Eng. Data 60(1), 171−180 (2015). doi.: 10.1021/je5009125 [Google Scholar]

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