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Energy efficiency and reliability increase for remote and autonomous objects energy supply of Russian oil and gas complex

UDK: 621.31:622.276
DOI: 10.24887/0028-2448-2018-9-144-147
Key words: hydrocarbon production, hydrocarbon reserves, reserves-to-production ratio, autonomous power installations of small and medium capacity, energy storage system, renewable energy source, energy supply, wind energy, solar energy
Authors: V.V. Bessel (NewTech Services LLC, RF, Moscow; Gubkin University, RF, Moscow), V.G. Kutcherov (Gubkin University, RF, Moscow; Royal Institute of Technology, Sweden, Stockholm) , A.S. Lopatin (Gubkin University, RF, Moscow), V.G. Martynov (Gubkin University, RF, Moscow), R.D. Mingaleeva (Gubkin University, RF, Moscow)

Analysis of the global energy market development allows to conclude that natural gas is becoming the main energy resource in the structure of world energy consumption in the nearest future. At the same time the statistical data show that there is a significant reduction in the hydrocarbon reserves over hydrocarbon production, and the time is right to concern about the development of renewable energy projects. The authors analyzed the indicators of the availability of the hydrocarbon reserves over hydrocarbon production. Calculations show that the values of the reserves-to-production ratio are estimated as 90 years for organic fuel and as 54 years for hydrocarbon raw materials in 2017. The projects of "hybrid" energy that combine the traditional production of hydrocarbons with the development of renewable energy projects will be the most needed in the medium term. Some proposals on the subject of this article are based on the collaborate research of Gubkin University and Royal Institute of Technology (Stockholm, Sweden). Currently the autonomous combined power installation on renewable energy sources with energy storage system application is very attractive. The analysis shows that the most objects of the Russian oil and gas complex are located in areas that are promising for the practical use of renewable energy such as solar and wind energy. The results of modeling show that the autonomous combined power installation on renewable energy sources with energy storage system application is one of the possible ways to increase the energy efficiency and reliability of remote oil and gas facilities energy supply.

References

1. BP statistical review of world energy, June 2018, URL: http://www.bp.com/statisticalreview

2. Kucherov V.G., Zolotukhin A.B., Bessel' V.V. et al., Natural gas is the main source of energy in the 21st century (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2014, V. 716, pp. 8–12.

3. Bessel' V.V., Non-traditional hydrocarbon resources - an alternative or a myth (In Russ.), Neftegaz.RU, 2013, no. 9, pp. 64–70.

4. Postuglevodorodnaya ekonomika: voprosy perekhoda (Post-hydrocarbon economy: transition issues): edited by Telegina E.A., Moscow: Publ. of Gubkin Russian State University of Oil and Gas, 2017, 406 p.

5. Bessel' V.V., Real state exploration in the oil and gas industry (In Russ.), Burenie i neft', 2016, no. 6, pp. 26–29.

6. BP Energy Outlook 2035, February 2015, URL: http://www.bp.com/en/global/corporate/energy-economics/energy-outlook-2035.html/

7. Gavrilov V.P., Grunis E.B., The state of oil production resource base in Russia and its increase prospects (In Russ.), Geologiya nefti i gaza, 2012, no. 5, pp. 30–38.

8. Morgunova M.M., Bessel' V.V., Kucherov V.G., Arctic offshore oil and gas resources in a competitive environment (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2016, no. 3, pp. 114–119.

9. Bessel' V.V., Kucherov V.G., Lopatin A.S., Martynov V.G., Energoeffektivnost' toplivno-ekonomicheskogo kompleksa Rossii (Energy efficiency of Russia's fuel and economic complex), Proceedings of Gubkin Russian State University of Oil and Gas, 2015, no. 2, pp. 13–26.

10. Bessel' V.V., Lopatin A.S., Kucherov V.G., Potential for the use of solar and wind energy in the fuel and energy complex of Russia (In Russ.), Neftegaz.RU, 2014, no. 6, pp. 74–79.

11. GDP, PPP (current international $) from The World Bank, URL: https://data.worldbank.org/indicator/NY.GDP.MKTP.PP.CD

12. Bessel' V.V., Kucherov V.G., Lopatin A.S., Martynov V.G., The paradigm shift in the global energy market (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2017, V. 751, no. 4, pp. 28–33.

13. Bessel' V.V., Kucherov V.G., Lopatin A.S. et al., Efficiency of using autonomous combined low and medium power plants on renewable energy sources (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2016, V. 737–738, no. 5–6, pp. 87–92.

14. Kutcherov V.G., Bessel V.V., Lopatin A.S., The paradigm shift in the global energy market: domination of natural gas, Proceedings of 17th international multidisciplinary scientific geoconference SGEM 2017, V. 17, no. 43, Sofia: STEF92 Technology LTD., pp. 813–820.

15. Mingaleeva R.D., Bessel' V.V., Balashov Yu.I., Energy efficiency increase for gas transportation systems objects by the autonomous combined power installation on renewable energy sources with energy storage system application (In Russ.), Territoriya NEFTEGAZ, 2018, no. 4, pp. 74–82.

Analysis of the global energy market development allows to conclude that natural gas is becoming the main energy resource in the structure of world energy consumption in the nearest future. At the same time the statistical data show that there is a significant reduction in the hydrocarbon reserves over hydrocarbon production, and the time is right to concern about the development of renewable energy projects. The authors analyzed the indicators of the availability of the hydrocarbon reserves over hydrocarbon production. Calculations show that the values of the reserves-to-production ratio are estimated as 90 years for organic fuel and as 54 years for hydrocarbon raw materials in 2017. The projects of "hybrid" energy that combine the traditional production of hydrocarbons with the development of renewable energy projects will be the most needed in the medium term. Some proposals on the subject of this article are based on the collaborate research of Gubkin University and Royal Institute of Technology (Stockholm, Sweden). Currently the autonomous combined power installation on renewable energy sources with energy storage system application is very attractive. The analysis shows that the most objects of the Russian oil and gas complex are located in areas that are promising for the practical use of renewable energy such as solar and wind energy. The results of modeling show that the autonomous combined power installation on renewable energy sources with energy storage system application is one of the possible ways to increase the energy efficiency and reliability of remote oil and gas facilities energy supply.

References

1. BP statistical review of world energy, June 2018, URL: http://www.bp.com/statisticalreview

2. Kucherov V.G., Zolotukhin A.B., Bessel' V.V. et al., Natural gas is the main source of energy in the 21st century (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2014, V. 716, pp. 8–12.

3. Bessel' V.V., Non-traditional hydrocarbon resources - an alternative or a myth (In Russ.), Neftegaz.RU, 2013, no. 9, pp. 64–70.

4. Postuglevodorodnaya ekonomika: voprosy perekhoda (Post-hydrocarbon economy: transition issues): edited by Telegina E.A., Moscow: Publ. of Gubkin Russian State University of Oil and Gas, 2017, 406 p.

5. Bessel' V.V., Real state exploration in the oil and gas industry (In Russ.), Burenie i neft', 2016, no. 6, pp. 26–29.

6. BP Energy Outlook 2035, February 2015, URL: http://www.bp.com/en/global/corporate/energy-economics/energy-outlook-2035.html/

7. Gavrilov V.P., Grunis E.B., The state of oil production resource base in Russia and its increase prospects (In Russ.), Geologiya nefti i gaza, 2012, no. 5, pp. 30–38.

8. Morgunova M.M., Bessel' V.V., Kucherov V.G., Arctic offshore oil and gas resources in a competitive environment (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2016, no. 3, pp. 114–119.

9. Bessel' V.V., Kucherov V.G., Lopatin A.S., Martynov V.G., Energoeffektivnost' toplivno-ekonomicheskogo kompleksa Rossii (Energy efficiency of Russia's fuel and economic complex), Proceedings of Gubkin Russian State University of Oil and Gas, 2015, no. 2, pp. 13–26.

10. Bessel' V.V., Lopatin A.S., Kucherov V.G., Potential for the use of solar and wind energy in the fuel and energy complex of Russia (In Russ.), Neftegaz.RU, 2014, no. 6, pp. 74–79.

11. GDP, PPP (current international $) from The World Bank, URL: https://data.worldbank.org/indicator/NY.GDP.MKTP.PP.CD

12. Bessel' V.V., Kucherov V.G., Lopatin A.S., Martynov V.G., The paradigm shift in the global energy market (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2017, V. 751, no. 4, pp. 28–33.

13. Bessel' V.V., Kucherov V.G., Lopatin A.S. et al., Efficiency of using autonomous combined low and medium power plants on renewable energy sources (In Russ.), Gazovaya promyshlennost' = GAS Industry of Russia, 2016, V. 737–738, no. 5–6, pp. 87–92.

14. Kutcherov V.G., Bessel V.V., Lopatin A.S., The paradigm shift in the global energy market: domination of natural gas, Proceedings of 17th international multidisciplinary scientific geoconference SGEM 2017, V. 17, no. 43, Sofia: STEF92 Technology LTD., pp. 813–820.

15. Mingaleeva R.D., Bessel' V.V., Balashov Yu.I., Energy efficiency increase for gas transportation systems objects by the autonomous combined power installation on renewable energy sources with energy storage system application (In Russ.), Territoriya NEFTEGAZ, 2018, no. 4, pp. 74–82.


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