Инд. авторы: Sharapov V.N., Cherepanov A.N., Popov V.N., Bykova V.G.
Заглавие: A mathematical model for 2D heat transfer dynamics in fluid systems with localized sink of magmatic fluid into local fractured zones above the top of crystallizing intrusions
Библ. ссылка: Sharapov V.N., Cherepanov A.N., Popov V.N., Bykova V.G. A mathematical model for 2D heat transfer dynamics in fluid systems with localized sink of magmatic fluid into local fractured zones above the top of crystallizing intrusions // Izvestiya. Physics of the Solid Earth. - 2012. - Vol.48. - Iss. 11-12. - P.859-870. - ISSN 1069-3513. - EISSN 1531-8451.
Внешние системы: DOI: 10.1134/S1069351312090029; SCOPUS: 2-s2.0-84871335657;
Реферат: eng: A model describing two-dimensional (2D) dynamics of heat transfer in the fluid systems with a localized sink of a magmatic fluid into local fractured zones above the roof of crystallizing crustal intrusions is suggested. Numerical modeling of the migration of the phase boundaries in 2D intrusive chambers under retrograde boiling of magma with relatively high initial water content in the melt shows that, depending on the character of heat dissipation from a magmatic fluid into the host rock, two types of fluid magmatic systems can arise. (1) At high heat losses, the zoning of fluidogenic ore formation is determined by the changes in temperature of the rocks within the contact aureole of the intrusive bodies. These temperature variations are controlled by the migration of the phase boundaries in the cooling melt towards the center of the magmatic bodies from their contacts. (2) In the case of a localized sink of the magmatic fluid in different parts of the top of the intrusive chambers, a specific characteristic scenario of cooling of the magmatic bodies is probably implemented. In 2D systems with a heat transfer coefficient αk < 5 × 104 W/m2 K, an area with quasi-stationary phase boundaries develops close to the region of fluid drainage through the fractured zone in the intrusion. Therefore, as the phase boundaries contract to the sink zone of a fluid, specific thermal tubes arise, whose characteristics depend on the width of the fluid-conductive zone and the heat losses into the side rocks. (3) The time required for the intrusion to solidify varies depending on the particular position of the fluid conductor above the top of the magmatic body. © 2012 Pleiades Publishing, Ltd.
Ключевые слова: retrograde boiling; model; intrusion; heat transfer; crystallization;
Издано: 2012
Физ. характеристика: с.859-870