Ways of helium development in Eastern Siberia
URI (для ссылок/цитирований):
https://iopscience.iop.org/article/10.1088/1742-6596/1515/2/022052https://elib.sfu-kras.ru/handle/2311/142836
Автор:
A, B Feodorov
A, V Egorov
L, I Sviridov
E, V Prokaten
A, V Bushkina
Коллективный автор:
Институт нефти и газа
Геологии нефти и газа
Кафедра машин и оборудования нефтяных и газовых промыслов
Дата:
2020-05Журнал:
Journal of Physics: Conference SeriesКвартиль журнала в Scopus:
Q3Библиографическое описание:
A, B Feodorov. Ways of helium development in Eastern Siberia [Текст] / B Feodorov A, V Egorov A, I Sviridov L, V Prokaten E, V Bushkina A // Journal of Physics: Conference Series: Journal of Physics: Conference Series. — 2020. — Т. 1515. — С. 1-6Аннотация:
The Baikal natural gas deposits are ten times higher than the Orenburg oil and gas
condensate field in terms of helium content. The Orenburg field is the raw material base of the
Orenburg helium plant, which is part of Gazprom Dobycha Orenburg. Helium is characterized
by increased ability to leak out. It is no coincidence that two deposits of Eastern Siberia
geographically gravitate towards the deep Baikal fault. Hydrocarbon deposits in the north of
the Krasnoyarsk Territory characterized by an increased fracturing system may have
interconnections with deep faults. The study of such geological conditions in the development
process is promising for increasing the raw material base of helium mining. Helium production
technology is based on low-temperature gas condensation. The application of membrane gas
separation technology is promising. Separation blocks can be incorporated into the
infrastructure of compressor stations. This approach to the deployment of helium production
capacities will increase the efficiency of capital investments. Relatively small volumes of
productive helium can be transported without reference to pipeline systems. The proximity to
the Yenisei and the Northern Sea Route makes the issue of the development of gas condensate
production relevant. Placing production wells near the intersection of several fracturing faults
is also effective in terms of high inflows. Of particular interest are wells drilled near
discontinuous faults. Under these conditions, one can rely on helium inflows through
microcrack systems from deep horizons.