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Hydrodynamic and thermal mode ling of reactive flow in the surroundings of intrusions
Jandová, Tereza ; Dolejš, David (advisor) ; Bruthans, Jiří (referee)
English Summary Intrusion of magma into the Earth's crust is associated with significant thermal perturbations, release of aqeuous fluids and formation of hydrothermal system. In order to better understand the feedback relationships between fluid flow, thermal evolution and permeability variations, we have modeled conductive and advective cooling of a shallow- crustal pluton using the SHEMAT software. Our model represents a two-dimensional cross section through the lithosphere with homogeneous material properties, whebery the heat and mass conservation equations are solved by finite difference method. We first calculate the stable lithospheric geotherm by emplying constant basal thermal flow of 40 mW m-2 and a constant surface temperature. Subsequently, we consider a rectangular magmatic intrusion emplaced at 5-10 km depth, which forms a contact aureole by conductive cooling. With time, a mushroom-like shape of the contact aureole is predicted. Inclusion of aqueous fluid flow into the model causes only a small alteration of thermal evolution mainly because the permeability is low and the fluid mass is negligible due to very low density under hydrothermal conditions. In addition to thermal effects, we have explored variations in hydraulic head in order to address the ensuing effects on the flow velocity. The...
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Reactive fluid flow and origin of the fracture-controlled greisens in the Horní Blatná granite pluton, Krušné hory Mts.
Heřmanská, Matylda ; Dolejš, David (advisor) ; Štemprok, Miroslav (referee)
Magmatic intrusions emplaced in the shallow continental crust are often associated with hydrothermal alteration and mineralization systems. Alteration zones and their assemblages can be described by means of reaction progress and this variable then used to calculate the time-integrated fluid fluxes, responsible for the mineral formation, if gradients in fluid composition, temperature and pressure are known or estimated. Two limiting cases of this approach have been applied in previous numerical models: (i) infiltration of aqueous fluid that is out of equilibrium with the host rocks, thus producing an alteration sequence as the fluid flux increases, and (ii) fluid flow in local equilibrium with host rocks, where mineral changes are induced by pressure and temperature gradients along the flow path. These two models generally yield results that differ by several orders of magnitude but are both in use for estimating fluid fluxes and transport properties in the lithosphere. We propose a combined model that evaluates the disequilibrium fluid infiltration and the pressure-temperature gradients simultaneously, and apply it to the interpretation of fracture-controled greisen alteration in the Horní Blatná granite pluton in the Krušné hory Mts. (Czech Republic). The Horní Blatná pluton is a composite...
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Hydrodynamic and thermal mode ling of reactive flow in the surroundings of intrusions
Jandová, Tereza ; Dolejš, David (advisor) ; Bruthans, Jiří (referee)
English Summary Intrusion of magma into the Earth's crust is associated with significant thermal perturbations, release of aqeuous fluids and formation of hydrothermal system. In order to better understand the feedback relationships between fluid flow, thermal evolution and permeability variations, we have modeled conductive and advective cooling of a shallow- crustal pluton using the SHEMAT software. Our model represents a two-dimensional cross section through the lithosphere with homogeneous material properties, whebery the heat and mass conservation equations are solved by finite difference method. We first calculate the stable lithospheric geotherm by emplying constant basal thermal flow of 40 mW m-2 and a constant surface temperature. Subsequently, we consider a rectangular magmatic intrusion emplaced at 5-10 km depth, which forms a contact aureole by conductive cooling. With time, a mushroom-like shape of the contact aureole is predicted. Inclusion of aqueous fluid flow into the model causes only a small alteration of thermal evolution mainly because the permeability is low and the fluid mass is negligible due to very low density under hydrothermal conditions. In addition to thermal effects, we have explored variations in hydraulic head in order to address the ensuing effects on the flow velocity. The...
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Reactive fluid flow and origin of the fracture-controlled greisens in the Horní Blatná granite pluton, Krušné hory Mts.
Heřmanská, Matylda ; Dolejš, David (advisor) ; Štemprok, Miroslav (referee)
Magmatic intrusions emplaced in the shallow continental crust are often associated with hydrothermal alteration and mineralization systems. Alteration zones and their assemblages can be described by means of reaction progress and this variable then used to calculate the time-integrated fluid fluxes, responsible for the mineral formation, if gradients in fluid composition, temperature and pressure are known or estimated. Two limiting cases of this approach have been applied in previous numerical models: (i) infiltration of aqueous fluid that is out of equilibrium with the host rocks, thus producing an alteration sequence as the fluid flux increases, and (ii) fluid flow in local equilibrium with host rocks, where mineral changes are induced by pressure and temperature gradients along the flow path. These two models generally yield results that differ by several orders of magnitude but are both in use for estimating fluid fluxes and transport properties in the lithosphere. We propose a combined model that evaluates the disequilibrium fluid infiltration and the pressure-temperature gradients simultaneously, and apply it to the interpretation of fracture-controled greisen alteration in the Horní Blatná granite pluton in the Krušné hory Mts. (Czech Republic). The Horní Blatná pluton is a composite...
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