Journals →  Gornyi Zhurnal →  2019 →  #11 →  Back

ECONOMY, ORGANIZATION AND MANAGEMENT
ArticleName Efficiency of vanadium recovery during crude oil production
DOI 10.17580/gzh.2019.11.10
ArticleAuthor Nazarova Z. M., Sobaev A. G., Zabaykin Yu. V.
ArticleAuthorData

Sergo Ordzhonikidze Russian State Geological Prospecting University, Moscow, Russia:

Z. M. Nazarova, Head of Chair, Professor, Doctor of Economic Sciences, nazarovazm@inbox.ru
A. G. Sobaev, Detailer
Yu. V. Zabaykin, Associate Professor, Candidate of Economic Sciences

Abstract

In Russia the baulk of vanadium-bearing oil occurs within the Volga–Ural oil province. This region possesses high potential for development and introduction of technologies for metal recovery from oil and bitumen, which can conceptually change the internal balance in the metal market. By tentative forecasts the anticipated volume of recoverable associated components is comparable with ore sources in this region. Success of implemented projects on oil refining improvement and production chemitization stimulation is ensured by the positive dynamics of vanadium price advance in the international market due to the population growth in the world the increased demand for metalwork. By all means, development of such reservoirs requires large investment, which elevates risks. Nevertheless, the implemented process designs are of strategic importance as the drivers of the chemical industry in Russia. The scope of this objective embraces a cluster of production problems typical of the fuel and energy sector of Russia such as maximization of raw materials production, ecology, processing and transportation. This article discusses the economic potential recovery of associated components from the Volga–Ural province oil, in particular, vanadium. The investment calculations show positive and high NPV. The internal rate of return, which is annual percent of invested capital, s 2.78 %. The efficiency indices prove the project investment. The payback period is round 6.4 years, which a good index in the competitive environment. Thus, while improving technology and equipment for deeper conversion of hydrocarbons, it is possible to make extra profit from recovery of associated components.

keywords Vanadium, oil demetallization, associated metal recovery, investment, forecast
References

1. Pengcheng Hu, Yimin Zhang, Tao Liu, Jing Huang, Yizhong Yuan, Yadong Yang. Separation and recovery of iron impurity from a vanadium-bearing stone coal via an oxalic acid leaching-reduction precipitation process. Separation and Purification Technology. 2017. Vol. 180. pp. 99–106.
2. Kushnarev A. V., Filippov V. V., Mikhalev V. A., Tleugabulov B. S. System improvement of vanadium hot metal proces s at EVRA Z NTMK. CIS Iron and Steel Review. 2017. Vol. 13. pp. 13–17. DOI: 10.17580/cisisr.2017.01.03
3. Danilova E. Heavy oils of Russia. Khimicheskiy zhurnal. 2008. No. 12. pp. 34–37.
4. Davudov D., Moghanloo R. G. A systematic comparison of various upgrading techniques for heavy oil. Journal of Petroleum Science and Engineering. 2017. Vol. 156. pp. 623–632.
5. Hein F. J. Geology of bitumen and heavy oil: An overview. Journal of Petroleum Science and Engineering. 2017. Vol. 154. pp. 551–563.
6. Banerjee D. K. Oil Sands, Heavy Oil & Bitumen: From Recovery to Refinery. Tulsa : PennWell Corporation, 2012. 185 p.
7. Makarov A. A., Grigorev L. M., Mitrova T. A. (Eds.). Advancement forecast for power generation sector in the world and in Russia in 2016. Moscow, 2016. 196 p.
8. Hart A., Greaves M., Wood J. A comparative study of fixed-bed and dispersed catalytic upgrading of heavy crude oil using-CAPRI. Chemical Engineering Journal. 2015. Vol. 282. pp. 213–223.
9. Sobolev V. S., Makarevich V. N., Iskritskaya N. I., Saybushev R. R., Borovikov I. S., Shchepochkina A. A. The possibility of reproduction of oil resources in the western regions of the Volga-ural oil and gas provinc e by opening and involvement in the development of deposits of heavy high-viscosity oil permian sys tem. Nedropolzovanie-XXI vek. 2018. No. 5. pp. 36–45.
10. Lipman M., Petrov N. (Eds.). Russia-2020: Scenarios for the Future. Moscow : ROSSPEN, 2012. 588 p.
11. Sobaev A. G., Zabaykin Yu. V., Roshchina O. E., Basher M. A. B., Biryukova N. V., Zabaykina N. V. Analytical review of the development of the economic strategy of oil and gas complex of Russia in the international energy market for the period up to 2030. Sovremennaya nauka: aktualnye problemy teorii i praktiki. Ser.: Ekonomika i pravo. 2019. No. 3. pp. 44–51.
12. Yashchenko I. G. Vanadium-bearing heavy oils of Russia. Izvestiya Tomskogo politekhnicheskogo universiteta. 2012. Vol. 321, No. 1. pp. 105–111.
13. Akhmadieva E. A., Poletaeva O. Yu., Movsumzade E. M., Leontiev A. Yu. Distribution of metal compounds in petroleum of oil and gas provinces of the Russia. Bashkirskiy khimicheskiy zhurnal. 2017. Vol. 24, No. 2. pp. 57–61.
14. Kormyshkina A. I., Sobaev A. G., Remezova D. A. Prospects for extracting vanadium from heavy oil. Oil and Gas 2016 : Head-Notes of the 70th Jubilee International Scientific Youth Conference Proceedings. Moscow, 2016. Vol. 3. p. 95.
15. Nazarova L. N. Oil and gas field development with hard-to-recover reserves : textbook. Moscow : RGU nefti i gaza im. I. M. Gubkina, 2011. 156 p.

Language of full-text russian
Full content Buy
Back