Minglong Zhao
Dalian University of Technology
6 Papers
11 Citations
Minglong Zhao is an academic researcher from Dalian University of Technology. The author has contributed to research in topics: Sill & Pore water pressure. The author has an hindex of 5, co-authored 6 publications.
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Papers
Review: Approaches to research on CO 2 /brine two-phase migration in saline aquifers
TL;DR: In this article, the authors review the progress made in research methods on CO2/brine two-phase migration and recommend improvements which could potentially increase the accuracy, reliability and applicability of the approaches.
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Numerical modeling of thermal evolution in the contact aureole of a 0.9 m thick dolerite dike in the Jurassic siltstone section from Isle of Skye, Scotland
TL;DR: In this paper, a heat transfer model analysis of thermal evolution in the contact aureole of a 0.9m thick dolerite dike in the Jurassic siltstone section from Isle of Skye, Scotland based on the constraints from the two types of vitrinite-reflectance geothermometers as well as geochemistry and burial history of host rocks was presented.
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The influence of igneous intrusions on the peak temperatures of host rocks: Finite-time emplacement, evaporation, dehydration, and decarbonation
TL;DR: The results demonstrate that the finite-time intrusion mechanism of magma can lower the predicted peak temperature of host rocks by up to 100^oC relative to the instantaneous intrusion mechanism, and although pore-water evaporation together with dehydration and decarbonation reactions can also depress the thermal effect of the sill on its host rocks, the maximum effect of these mechanisms on T"p"e"a"k only reaches approximately 50^OC.
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Numerical investigation of the effect of volatilization and the supercritical state of pore water on maturation of organic matter in the vicinity of igneous intrusions
TL;DR: In this paper, the effect of volatilization and the supercritical state of pore water on maturation of organic matter in host rocks based on the heat flow models assuming the instantaneous and finite-time intrusion mechanisms of magma was investigated.
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Influence of the volume loss of framework grains on the quantitative analysis of diagenetic modification of the original intergranular porosity
TL;DR: In this paper, the authors present an approach for computing COPL and CEPL in the case of volume loss of framework grains by dissolution or intergranular pressure solution (DIPL).
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