Ecology Safety Technologies of Unconventional Oil Reserves Recovery for Sustainable Oil and Gas Industry Development

Zyrin, V.; Ilinova, A.

doi:10.12911/22998993/64637

Artykuł - szczegóły

Tytuł artykułu

Ecology Safety Technologies of Unconventional Oil Reserves Recovery for Sustainable Oil and Gas Industry Development

Autorzy

Zyrin V. , Ilinova A.

Treść / Zawartość

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DOI

10.12911/22998993/64637

Warianty tytułu

Języki publikacji

Abstrakty

The problem of effective technology for heavy oil recovery nowadays has a great importance, because of worsening geological conditions of the developed deposits, decreasing recovery factor, increasing the part of heavy oil. For the future sustainable development of oil producing industry the involved technologies must require energy effectiveness and ecological safety. The paper proves the enhanced oil recovery methods necessity for heavy oil deposits, highlighted thermal technologies as the most effective. But traditional thermal treatment technologies is a source of air pollutant emission, such as CO, NO etc. The calculation of emissions for traditional steam generator is provided. Besides, the paper shows the effectiveness of electrical enhanced oil recovery methods. The advantages of associated gas as a fuel for cogeneration plants is shown. The main approaches to implementation of carbon dioxide sequestration technologies in the oil and gas industry of Russia are defined. Conceptual view of СО₂-EOR technologies potential within the context of sustainable development of oil and gas industry are presented. On the basis of the conducted research a number of scientific research and practical areas of the CCS technology development are revealed.

Słowa kluczowe

heavy oil ecology safety electrical enhanced oil recovery downhole electroheating generator carbon dioxide carbon capture and storage (CCS) oil recovery

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2016

Tom

Vol. 17, nr 4

Strony

35—40

Opis fizyczny

Bibliogr. 14 poz., rys.

Twórcy

autor

Zyrin V.

slava19887@yandex.ru

Saint-Petersburg Mining University, 21st Vasil’evsky Ostrov, Line 2, Saint-Petersburg, 199106, Russia

autor

Ilinova A.

iljinovaaa@mail.ru

Saint-Petersburg Mining University, 21st Vasil’evsky Ostrov, Line 2, Saint-Petersburg, 199106, Russia

Bibliografia

1. Antoniadi D. 2004. Nastolnaya kniga po termicheskim metodam dobychi nefti. Krasnodar, Sovietskaya Kuban’, 464 p.
2. Barillas J., Dutra T., Mata W. 2008. Improve oil recovery process for heavy oil: a review. Brazilian Journal of Petroleum and Gas, 2(1), 45–54.
3. Beecy D., Kuuskraa V. 2004. Basin strategies for linking CO2 enhanced oil recovery and storage of CO2 emissions. 7th International Conference on Greenhouse Gas Control Technologies, Vancouver, Canada.
4. Cherepovitsyn A., Ilinova A. 2016. Ecological, economic and social issues of implementing carbon dioxide sequestration technologies in the oil and gas industry in Russia. Journal of Ecological Engineering, 17(2), 19–23.
5. Cherepovitsyn A., Ilinsky A. 2011. Geological Disposal of Carbon Dioxide and Radioactive Waste: A Comparative Assessment. Comparison of the Geological Disposal of Carbon Dioxide and Radioactive Waste in European Russia. International Atomic Energy Agency; Springer Dordrecht London Heidelberg New York, 513 p.
6. Energy technology prospects. Strategies and scenarios to 2050. International Energy Agency, 2011. URL: http://www.iea.org
7. Ilinova A., Dmitrieva D. 2016. Technology commercialization: experience of the U.S. and possibilities for oil and gas industry in Russia. International Journal of Applied Engineering Research, 11(7), 4990–4994.
8. Litvinenko V., Kozyaruk A., Soloviev G., Zagrivniy E. 2006. Device for wellbore heat treatment, RU patent 2282018, September 15.
9. Naucler T., Campbell W., Ruijs J. 2008. Carbon Capture & Storage: Assessing the Economics. Report of McKinsey & Company. 53 p. URL: http:// assets.wwf.ch/downloads/mckinsey2008.pdf
10. Rehman M., Meribout M. 2012. Conventional versus electrical enhanced oil recovery: a review. Journal Petroleum Exploitation Production Technology, 2, 157–167.
11. Toth F., Miketa A. 2011. Costs of the Geological Disposal of Carbon Dioxide and Radioactive Waste. Springer, 215–262.
12. WWF - The Energy Repor 2011. 100% Renewable Energy by 2050. WWF/Ecofys/OMA, Gland, Switzerland, 256 p. URL: http://www.wwf.or.jp/ activities/lib/pdf_climate/green-energy/WWF_EnergyVisionReport.pdf
13. Zagrivniy E., Malarev V., Lakota O., Zyrin V. 2012. Downhole electrosteam generator-separator, RU patent 2451158. May 20.
14. Zyrin V., Vasilev B. 2015. Designing the electrothermal complex control system for enhanced oil recovery. International Journal of Applied Engineering Research, 10(24), 44183–44188.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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