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S. A. Veshev
S. A. Veshev
FGU NPP «Geologorazvedka»
FGU NPP «Geologorazvedka»

Articles

Application of the modern electric exploratory technologies in prospecting of mineral deposits
  • Date submitted
    2012-07-25
  • Date accepted
    2012-09-30
  • Date published
    2013-01-01

Experience of the complex application оf geophysical and geoelectrochemical methods for the prediction and prospecting оf mineral deposits

Article preview

Due to the complexity of prospecting and exploration  of  deep  seated  mineral  deposits, there are new requirements for the methods used. Methods should be  focused on the structural and tectonic characteristics of target objects. A set of methods, including gravity, magnetic, geoelectrochemistry is intoduced. This article describes applying of this complex technology and an example of using it effectively is given.

How to cite: Alekseev S.G., Veshev S.A., Voroshilov N.A. Experience of the complex application оf geophysical and geoelectrochemical methods for the prediction and prospecting оf mineral deposits // Journal of Mining Institute. 2013. Vol. 200. p. 14.
Application of the modern geophysical technologies for prospecting and exploration of mineral deposits
  • Date submitted
    2010-12-20
  • Date accepted
    2011-02-09
  • Date published
    2011-06-01

Structure of superimposed haloes of deep-seated polymetallic deposits (based on example of Аltaiski krai)

Article preview

Results of field studies run on Zakharovskoie polymetallic deposit (Altaiski Krai) in order to investigate structure of superimposed haloes and to determine velocity of migration of elements forming haloes, are discussed.

How to cite: Alekseev S.G., Veshev S.A., Voroshilov N.A., Margovich E.G., Nikitichev A.P., Dukhanin A.S. Structure of superimposed haloes of deep-seated polymetallic deposits (based on example of Аltaiski krai) // Journal of Mining Institute. 2011. Vol. 194. p. 124.
Geophysics
  • Date submitted
    2008-10-13
  • Date accepted
    2008-12-15
  • Date published
    2009-04-01

A complex of gravi-, magneto-, electroprospecting аnd geoelectrochemical methods for local prediction and prospecting for hydrocarbon deposits

Article preview

It is proposed to use interpretational spatial distributions of effective parameters of the medium under investigation instead of measured fields in the process of comprehensive prediction-prospecting investigations. There are used effectively: effective density, effective magnetization, intensity of probable sources of geochemical anomalies.

How to cite: Alekseev S.G., Veshev S.A., Voroshilov N.A., Margovich E.G., Shtokalenko M.B., Putikov O.F. A complex of gravi-, magneto-, electroprospecting аnd geoelectrochemical methods for local prediction and prospecting for hydrocarbon deposits // Journal of Mining Institute. 2009. Vol. 183. p. 216-218.
Modern technologies of electrical prospecting for mineral deposits
  • Date submitted
    2007-09-24
  • Date accepted
    2007-11-23
  • Date published
    2008-03-01

Development of geoelectrochemical technologies and their complex use in hydrocarbon prospecting

Article preview

The problems of progression of geoelectrochemical technologies are considered. Simplifying algorithm of the flow aureole modeling is described. Examples of the geoelectrochemical technologies application in the search for ore lodes and oil and gas pools are presented.

How to cite: Shtokalenko M.B., Alekseev S.G., Veshev S.A., Voroshilov N.A., Putikov O.F. Development of geoelectrochemical technologies and their complex use in hydrocarbon prospecting // Journal of Mining Institute. 2008. Vol. 176. p. 136-141.
Modern electrical exploration technologies of prospecting
  • Date submitted
    2004-09-14
  • Date accepted
    2004-10-30
  • Date published
    2005-04-01

Геоэлектрохимические методы при поисках нефтегазовых и рудных месторождений

Article preview

Широко используемые при поисках нефтегазовых и рудных месторождений геофизические методы, в том числе и магнитотеллурические, не позволяют достаточно уверенно изучать вещественный состав объектов. Для решения задачи можно использовать в комплексе разработанные в России глубинные геоэлектрохимические методы, основанные на изучении струйных ореолов рассеяния. Дано краткое физико-геологическое и физико-математическое обоснование струйной миграции вещества в земной коре, приведены примеры распределения концентрации в струйном ореоле в слоистом геологическом разрезе, оценено влияние вертикальных разломов.

How to cite: Putikov O.F., Margovich E.G., Veshev S.A., Voroshilov N.A., Alekseev S.G., Shtokalenko M.B. // Journal of Mining Institute. 2005. Vol. 162. p. 50.