Quantum-field approach to identification of signs of possible accidents in mines
- Details
- Category: Ecology
- Last Updated on Thursday, 17 October 2013 16:18
- Published on Thursday, 08 November 2012 14:59
- Hits: 6409
Authors:
I.A. Shaykhlislamova, Cand. Sci. (Tech.), Associate Professor, State Higher Educational Establishment “National Mining University”, Senior Lecturer of the Department of Aerology and Labour Protection, Dnіpropetrovsk, Ukraine
V.I. Muraveynik, Cand. Sci. (Tech.), Associate Professor, National Metallurgical Academy of Ukraine, Dnіpropetrovsk, Ukraine
Abstract:
Purpose. To provide the theoretical basis for quantum-field approach to revealing the hidden signs of probable accidents which could occur in mines and to develop the practical principles for remote testing of shafts for hidden signs of possible accidents.
Methodology. We have used in this work such methods as: theoretical methods for abstraction, formalization, axiomatics, deduction and induction, experimental methods of comparison, sign simulation, development of practical ways of mines testing and its experimental verification.
Findings. The theoretical basis of quantum-field approach to the identification of hidden evidence of possible accidents in the mines was developed. It is shown that the mine, as the system is influenced by planetary and space factors. Rock massif and mine tunnels emit waves of energy in wide frequency range. It has been established experimentally that the integral emissive capacity of the tunnels of deep mines of the Donets Basin reaches 500–600 W/m2. Rocks and minerals contain some radioactive elements and its decay produces micro-particles, including neutrinos. Rock massif filters the micro-particles and only neutrinos pass through it.
The experiments carried out in the mines of the Donets Basin have proved theoretical assumptions about the possibility of quantum-field approach to remote detection of hidden signs of possible accidents in mines. It allows determining the duration of period of threat. This method is recommended for realization.
Originality. We concede that the neutrino coming out of the mine carries the information about micro-processes which take place in the massif and mines. This information can be perceived distantly, on the field-level, by operator of dowsing (biolocation).
Practical value. On the basis of quantum-field approach the method of detection of signals about possible accident in the mine has been developed. The experimental verification of the proposed method was done in the mines of the Donets Basin using sign simulation. The duration period of threat after the start of signal receiving is 11–12 hours. The formulas and graphs illustrating the essence of the proposed method are presented in the article.
References:
1. Муравейник В.И. Системо-информационный под-ход / Муравейник В.И. – Днепропетровск: Изд-во „Свидлер“, 2006. – 270 с.
Muraveynik, V.I. (2006), Sistemno-informatsionnyi podkhod [Systems-Information Approach], Publishing house “Svidler”, Dnipropetrovsk, Ukraine.
2. Шайхлисламова И.А. Тепловое излучение в выработках глубоких шахт / И.А. Шайхлисламова, В.И. Муравейник // Геотехнічна механіка: Міжвід. зб. наук. праць ; Ін-т Геотехнічної механіки ім. М.С. По-лякова НАН України. – Дніпропетровськ, 2010. – Вип. 90. – С. 155–159.
Shaykhlislamova, I.A. and Muraveynik, V.I. (2010), “Thermal radiation in the workings of deep mines”, Geotekhicheskaya mekhanika, published by M.S. Polyakov Institute of Geotechnical Mechanics NAS of Ukraine, Dnipropetrovsk, issue 90, pp. 155–159.
3. Ходаковский Н. Спираль времени или будуще, которое уже было [Электронный ресурс ] / Ходаковский Н. – Режим доступа: http://ru-sani.narod.ru/ nhod/16. shtml.htm#11Khodakovskii N. Time Spiral or the future which has already been http://ru-sani.narod.ru/ nhod/16. shtml.htm#1
Khodakovskiy, N. “Time Spiral or the future which has already been”, available at: http://ru-sani.narod.ru/nhod/16.shtml.htm#11Khodakovskii N. Time Spiral or the future which has already been http://ru-sani.narod.ru/ nhod/16. shtml.htm#1
4. Теоретические основы и практика оперативного прогнозирования аварийных ситуаций в шахтах / [В.И. Муравейник, С.А. Алексеенко, Ю.Ф. Булгаков и др.] // Науковий вісник НГУ – 2009 – №9. – С. 46–50.
Muraveynik, V.I., Alekseenko, S.A., Bulgakov, Yu.F., Shaykhlislamova, I.A. and Korol, V.I. (2009), “Theoretical foundations and practice of operational forecasting of emergency situations in mines”, Naukovyi visnyk Natsionalnoho hirnychoho universytetu, no.9, pp. 46–50.
5. Спосіб прогнозування аварійних ситуацій у підземних гірничих виробках: пат. на кор. мод. 45451 Україна: МПК Е21F 5/00, Е21С 39/00 / В.І. Муравейник, С.О. Алексеєнко, Ю.Ф. Булгаков, В.І. Король, І.А. Шайхлісламова; заявник і патентовласник Національний гірничий університет. №u200905789; заявл. 05.06.2009; опубл. 10.11.2009, Бюл. №21.
Muraveynik, V.I., Alekseenko, S.A., Bulgakov, Yu.F., Shaykhlislamova, I.A. and Korol, V.I. (2009), “Method of forecasting of accidents in underground mine workings”, pat. For useful model. 45451 Ukraine: MPK Е21F 5/00, Е21С 39/00; patentee and patent holder National Mining University. No.u200905789; application date. 05.06.2009; publication date. 10.11.2009, Bulletin no.21.
2012_5_shaikh | |
2013-10-17 299.52 KB 1737 |