The influence of cosmological factors on the geothermal process in the interior of the Yangantau mountain


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Our studies have demonstrated gradual depression of the temperature regime of geothermal process in the interior of the Yangantau mountain at a rate of 0.5 - 1.0 degrees per year. This process is a result of a rare combination of geographic, climatic, and geochemical conditions giving rise to a thermodynamic system in the form of a natural reactor. This system is characterized by highly effective thermolysis of the organic mass contained in bituminiferous shales with the production of the thermal gas-vapour mixture that serves as the main therapeutic factor utilized at the Yangan-Tau health resort. However, the limited resources of bituminiferous shales in the interior of the Yangantau mountain tend to be exhausted. Therefore, they need to be replenished with the products of bituminiferous shale thermolysis from other locations if the geothermal process in the interior of the Yangantau mountain to be prolonged.

作者简介

Ishtimer Khuramshin

State budgetary institution “Bashkir Research Center for Apiculture and Apitherapy”

Email: ishtim@mail.ru
450059 Ufa, Republic Bashkortostan

参考

  1. APA Style. 2013. Available at: http://biofile.ru/kosmos/1415.html (accessed 24 October 2013).
  2. Хурамшин И.Ш. Формирование теплогенеративного процесса и лечебных факторов курорта Янган-Тау. Уфа: Типография им. Дзержинского; 2007.
  3. de Adler N.O., Elias A.G., Manzano J.R. Solar cycle length variation. JASTR. 1997; 59 (2): 159-62.
  4. Витинский Ю.И., Копецкий М., Куклин Г.В. Статистика пятнообразовательной деятельности Солнца. М.: Наука; 1986.
  5. Наговицын Ю.А. Глобальная активность Солнца на длительные времена. Астрофизический бюллетень. 2008; 1: 45-58.
  6. Федулов К.В., Астафьева Н.М. Структура климатических изменений (по палеоданньм и данным инструментальной эпохи). М.; 2008. Available at: http://unnatural.ru/climatic-variability-ch (accessed 22 January 2013).
  7. Cp.Miiller P., von Storch N. Computer modelling in atmospheric and oceanic sciences - bulding knowledge. Berlin, Heidelberg, New York; Springer-Verlag; 2004. Available at: unnatural.ru/climatevariability-ch (accessed 22 January 2013).
  8. APA Style. 2013. Available at: http://meteoclub.ru/lite (accessed 22 January 2013).
  9. Russell C.T. Solar wind and interplanetary magnetic field. Space Weather. Washington, DC: American Geophysical Union; 2003.
  10. Parker C.T. Space weather and changing sun. Space weather. Washington, DC: American Geophysical Union; 2003.
  11. APA Style. 2013. Available at: http://ru.vikipedia.org/viki (accessed 22 January 2013).
  12. APA Style. 2013. Available at:thhp://citadel.pioner-samara.ru/ distance/ast.teo4htm (accessed 22 January 2013).
  13. APA Style. 2013. Available at: [http://zemlyanin.info/lummyeprilivy/ (accessed 22 January 2013).
  14. APA Style. 2013. Available at: http://bse.sci-lib.com/article092783. html (accessed 22 January 2013).
  15. Щулейкин В.В. Физика моря. М.: Наука; 1967.

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