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EQUIPMENT AND MATERIALS
Название Mobile drilling and production plant for oil shale extraction in the Volga Region
DOI 10.17580/gzh.2019.05.12
Автор Ilyasov V. N., Mrakin A. N., Selivanov A. A., Morev A. A.
Информация об авторе

Perelyubskaya Mining Company, Saratov, Russia:

V. N. Ilyasov, Director

 

Gagarin Saratov State Technical University, Saratov, Russia:
A. N. Mrakin, Associate Professor, Candidate of Engineering Sciences, anton1987.87@mail.ru
A. A. Selivanov, Associate Professor, Candidate of Engineering Sciences
A. A. Morev, Associate Professor, Candidate of Engineering Sciences

Реферат

The article offers an analytical survey of current solid mineral mining methods and their applicability in extraction of sulfur-bearing oil shale. The key disadvantages of the in-situ methods are discussed in terms of specific occurrence of sulfurbearing shale strata while their open pit mining is suppressed both ecologically and economically. The use of drilling rigs in extraction of solid minerals by leaching of soft dissolvable rocks is studied. Inapplicability of this approach to oil shale production in the Volga Region due to limited range of uses of this equipment and its failure to extract shale from thin horizontal productive strata is demonstrated. The article presents the technology of directional (inclined and horizontal) drilling using a mobile forward/reverse drilling plant. The practicability of this technology in extraction of sulfur-bearing oil shale and other solid mineral bodies of complex geological structure and crowded with aquifers is shown. The technology can also be implemented in mineral mining under rivers, lakes and seas. The article gives the plant layout and composition, offer some original engineering solutions and describe the mode of functioning.
The study has been supported by the Russian Foundation for Basic Research, Project No. 17-08-00295 A.

Ключевые слова Oil shale, mine, drilling plant, traveling block, tower, rotator, pipe, slurry, dump
Библиографический список

1. Zhaojun Liu, Qingtao Meng, Qingshui Dong, Jianwei Zhu, Wei Guo et al. Characteristics and resource potential of oil shale in China. Oil Shale. 2017. Vol. 34, No. 1. pp. 15–41.
2. Titova G. I., Beletskaya G. P. Some possibility of shale gas production in Perm region. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy. 2014. No. 2. pp. 33–39.
3. Morozova A. O., Klimenko V. V. The possibilities of using shale gas in the Russian and European power industries. Thermal Engineering. 2014. Vol. 61, No. 4. pp. 247–254.
4. Volkov E. P. Selectals. Vol. 4 : Shale power engineering. Moscow : ID MEI, 2015. 480 p.
5. Mrakin A. N. Power engineering processing of oil shale. Saratov : Amirit, 2017. 108 p.
6. Mrakin A. N., Selivanov A. A. Innovation power engineering system for thermochemical conversion of oil shale. Oil and Gas Chemistry : IX International Conference Proceedings. Tomsk : Izdatelstvo IOA SO RAN, 2015. pp. 583–588.
7. Romadenkina S. B., Reshetov V. A., Kruzhalov A. V., Lobankov E. V., Kuzmina R. I. Composition of the thermal degradation products of oil shale from the Kotsebinskoe deposit. Solid Fuel Chemistry. 2016. Vol. 50, No. 1. pp. 20–22.
8. Britan I. V., Leizerovich S. G. Prospects for borehole geotechnologies in mineral mining in the Belgorod Region. Gornyi Zhurnal. 2014. No. 8. pp. 49–53.
9. Chukhrjaev N. P., Isakov V. S., Shamshin V. N., Chukhryaeva O. N., Gorbachev N. S. Drilling plant. Patent RF, No. 2247211. Appli ed: 24.07.2003. Published: 27.02.20 05. Bulletin No. 6.

10. Ilyasov V. N. Mobile direct and inverse operating drilling-and-producing rig. Patent RF, No. 2310731. Applied: 20.03.2006. Published: 20.11.2007. Bulletin No. 32.
11. Pechenegov Yu. Y., Simonov V. F., Semyonov B. A., Kosova O. Yu., Mrakin A. N. Application of a tubular flow reactor for oil shale pyro-gasification. Oil Shale. 2014. Vol. 31, No. 4. pp. 238–249.
12. Luriy V. G., Kramarova E. A., Mochnachuk I. I., Pankratov A. N. Creation of a class of the power technological complexes providing effective conversion of local low-grade fuel resources and combustible waste with receipt of demanded products. Ugol. 2017. No. 2. pp. 58–61.
13. Yi Pan, Xiaoming Zhang, Shouhui Liu, Shuangchun Yang, Nan Ren. A Review on Technologies for Oil Shale Surface Retort. Journal of The Chemical Society of Pakistan. 2012. Vol. 34, No. 6. pp. 1331–1338.
14. Qingchun Yang, Yu Qian, Huairong Zhou, Siyu Yang. Development of a coupling oil shale retorting process of gas and solid heat carrier technologies. Energy and Fuels. 2015. Vol. 29, No. 9. pp. 6155–6163.

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