Determining the Epicenter of a Future Short-Focus Earthquake Tens of Hours before Earthquake and Reducing the Magnitude of an Impending Catastrophic Earthquake
The article describes a project proposed to determine the epicenter of a future
short-focus earthquake tens of hours before and to reduce the magnitude of
an impending catastrophic earthquake. It focuses on developing a physical
model to determine the conditions necessary for the start of an earthquake,
for a method based on the registration of flows of mercury vapor in the gas
rising from the Earth. This model gives an explanation of why an earthquake
precursor appears so early (such a long period of time can range from a few
to hundreds of hours). Normally, the characteristic times of an earthquake
precursor for seismic methods are tens of seconds. The project is based on the
physical and mathematical models of an earthquake. The derived formula for
the time of the precursor of a future earthquake allows us to explain and to
describe the time increase for the precursor, depending on the magnitude of
the earthquake. The method of reducing the magnitude of an impending catastrophic
earthquake is based on the proposed physical model of the onset of
an earthquake and is implemented by the action of a vibration source in the
region of the detected earthquake epicenter. The proposed system should save
citizens, lives from future short-focus earthquakes.
References
[1]
Griber, A. (2010) Earthquakes in the History of Israel.
http://alfred-griber.com/proizvedeniya/ocherki-ob-izraile/zemletryaseniya-v-istorii-izrailya
[2]
Staheev, Yu.I., et al. (2000) Patent 2145098 (01.27.2000)—Method of Invention for Earthquake Prediction. http://www.freepatent.ru/patents/2145098
[3]
Staheev, Yu.I. (2005) Hydrogeochemical Precursors of Earthquakes. Russian Chemical Journal, 49, 110-119. http://www.chem.msu.su/rus/jvho/2005-4/110.pdf
[4]
Fursov, V.Z., Wolfson, N.B. and Khvadovsky, A.G. (1968) The Results of the Study of Mercury Vapor in the Zone of the Tashkent Earthquake. Reports of the Academy of Sciences of the USSR, 179, 1213-1216.
[5]
Gilat, A. and Vol, A. (2005) Primordial Hydrogen-Helium Degassing, an Overlooked Major Energy Source for Internal Terrestrial Processes. HAIT Journal of Science and Engineering B, 2, 125-167.
http://people.clarkson.edu/~nanosci/jse/B/vol0201B/vg040720.pdf
[6]
Gilat, A. and Vol, A. (2012) Degassing of Primordial Hydrogen and Helium as the Major Energy Source for Internal Terrestrial Processes. Geoscience Frontiers, 3, 911-921. https://www.sciencedirect.com/science/article/pii/S1674987112000412
https://doi.org/10.1016/j.gsf.2012.03.009
[7]
Mavrodiev, S.C., Pekevski, L., Botev, E., Pinar, A., Kikuashvili, G., Vol, A. and Gilat, A. (2018) Study of the Possibility of Predicting Earthquakes. International Journal of Geosciences, 9, 688. https://doi.org/10.4236/ijg.2018.912042
https://www.scirp.org/journal/PaperInformation.aspx?PaperID=89580
[8]
Reid, H.P. (1910) The California Earthquake of April 18, 1906; the Mechanics of the Earthquake. Carnegie Institute, Washington DC. https://doi.org/10.1086/621732
[9]
Frolov, K.V., et al. (2004) Mechanical Engineering. Encyclopedia. Vol. XXL, Mashinostroenie, Moscow, 912 p. http://mash-xxl.info/info/397136
[10]
Alekhin, Yu.V., Kovalskaya, N.V., Lapitsky, S.A. and Minubaeva, Z.I. (2003) New Results of the Study of Diffusion and Filtration Migration of Mobile Forms of Mercury. Conference Lomonosov Readings. Section Geology, April.
http://geo.web.ru/db/msg.html?mid=1169917
[11]
Site Biosfera. Space. https://biosfera.space/np/ciklony-i-anticiklony-2.html
[12]
Gokhberg, M.B. and Kolosnitsyn, N.I. (2010) Trigger Mechanisms of Earthquakes. In: Adushkina, V.V. and Kocharyan, G.G., Eds., The Collection Rigger Effects in Geosystems, Academician of the Russian Academy of Sciences, Moscow, 52.
http://idg.chph.ras.ru/data_files/%D0%A2%D1%80%D0%B8%D0%B3% D0%B3%D0%B5%D1%80%D0%BD%D1%8B%D0%B5%20%D1%8D%D1%84%D1%84% D0%B5%D0%BA%D1%82%D1%8B_2010.pdf
[13]
Kushtanova, G.G. and Ovchinnikov, M.N. (2010) Underground Hydromechanics, Kazan University Press, Kazan, 67 p. https://www.twirpx.com/file/1463802/
[14]
Tikhonov, A.N. and Samarsky, A.A. (1972) The Equations of Mathematical Physics. Science, Moscow, 736 p.
[15]
Kuznetsov, V.V. (2012) 20 Lectures on Earth Physics. Lecture 8. Gorno-Altai University Press, Gorno-Altai. https://vvkuz.ru/books/lectures_2/8.pdf
[16]
Stepanov, I.I. (1996) Mercury—The Indicator of “Hot” Hydrothermal Zones and Dynamic Processes Accompanied by Deformations of Mountain Species. Abstract of Thesis, Moscow.
http://earthpapers.net/rtut-indikator-goryachih-gidrotermalnyh-zon-i-dinamicheskih- protsessov-soprovozhdayuschihsya-deformatsiyami-gornyh-porod#ixzz5hWISyNRB
[17]
Mirzoev, K.M., Nikolaev, A.V., Lucc, A.A. and Jung, S.L. (2010) Method for Removing Elastic Energy to Prevent Earthquakes. In: Adushkina, V.V. and Kocharyan, G.G., Eds., Trigger Effects in Geosystems, Academician of the Russian Academy of Sciences, Moscow, 87 p.
http://idg.chph.ras.ru/data_files/Триггерные%20эффекты_2010.pdf
[18]
Site Detaly. https://detaly.co.il/zemletryaseniya
[19]
Site Detaly.
https://detaly.co.il/v-izraile-vvodyat-sistemu-preduprezhdeniya-zemletryasenij
