Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
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MulT_predict - An optimised comprehensive multicomponent geothermometer
In this study, we introduce MulT_predict as a fully integrated solute multicomponent geothermometer, combining numerical optimisation processes for sensitive parameters to back-calculate to chemical reservoir conditions. This results in a state of the art geothermometer, providing an accurate reservoir temperature estimation validated by geothermal borehole measurements on a worldwide scale. In addition, a universally valid mineral assemblage for an unknown reservoir composition is developed, focusing on worldwide applicability. Using the evolved methodology, the limits of the optimisation processes are determined by using a synthetic brine (150 ◦C, pH 6, aluminium concentration 0.003 mmol/l) and successively perturbing its geochemical equilibrium state. Individual back-calculation of reservoir conditions lead to valid temperature estimations of 145 ◦C, 3.4% lower than the initial temperature while a simultaneous and interdependent optimisation reconstructs the sensitive parameters even more precisely with a deviation of 0.056 for the initial pH value, and 0.164 μmol/l for the aluminium concentration.
MulT_predict - An optimised comprehensive multicomponent geothermometer
In this study, we introduce MulT_predict as a fully integrated solute multicomponent geothermometer, combining numerical optimisation processes for sensitive parameters to back-calculate to chemical reservoir conditions. This results in a state of the art geothermometer, providing an accurate reservoir temperature estimation validated by geothermal borehole measurements on a worldwide scale. In addition, a universally valid mineral assemblage for an unknown reservoir composition is developed, focusing on worldwide applicability. Using the evolved methodology, the limits of the optimisation processes are determined by using a synthetic brine (150 ◦C, pH 6, aluminium concentration 0.003 mmol/l) and successively perturbing its geochemical equilibrium state. Individual back-calculation of reservoir conditions lead to valid temperature estimations of 145 ◦C, 3.4% lower than the initial temperature while a simultaneous and interdependent optimisation reconstructs the sensitive parameters even more precisely with a deviation of 0.056 for the initial pH value, and 0.164 μmol/l for the aluminium concentration.
MulT_predict - An optimised comprehensive multicomponent geothermometer
Ystroem, Lars H. (Autor:in) / Nitschke, Fabian (Autor:in) / Kohl, Thomas (Autor:in)
18.08.2022
Geothermics, 105, Art.-Nr.: 102548 ; ISSN: 0375-6505
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
British Library Online Contents | 2004