A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION

Sushrut Deshpande; Maarten Vergote; Bart Janssens; Vincent Lemort

A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION

Université de Liège

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

Accurate prediction of temperature-dependent specific heat in rocks is essential for advanced thermal modelling in geophysical and geothermal applications. This study introduces a comprehensive computational package developed in Julia, designed to calculate the specific heat of various rocks over a temperature range based on their chemical composition. The package leverages the Shomate scheme to match empirical data, ensuring high accuracy in predictions. It
includes an extensive database of specific heat values for a wide array of common rock-forming minerals and compounds, while also allowing users to input custom compounds for tailored analyses. By integrating thermodynamic principles with empirical models, the package effectively computes specific heat variations with temperature, accommodating diverse rock types. The user-friendly interface supports input of chemical composition data—such as SiO2, Al2O3, Fe2O3, and other oxides—enabling geologists and engineers to obtain reliable specific heat estimates across different temperatures. This tool is particularly valuable in scenarios where direct measurement of temperature-dependent specific heat is challenging, offering a robust solution for thermal
management in geological formations.

Originalsprache	Englisch
Titel	Proceedings of the 1st Belgian Symposium of Thermodynamics (Carnot 2024
Seiten	31
Seitenumfang	33
ISBN (elektronisch)	978-2-9604012-0-2
Publikationsstatus	Veröffentlicht - 1 Dez. 2025

Publikationsreihe

Name	Proceedings of the 1st Belgian Symposium of Thermodynamics (Carnot 2024)
Herausgeber (Verlag)	A&M ULiège Scientific and Technical Publications
Nummer	1
Band	1

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title = "A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION",

abstract = "Accurate prediction of temperature-dependent specific heat in rocks is essential for advanced thermal modelling in geophysical and geothermal applications. This study introduces a comprehensive computational package developed in Julia, designed to calculate the specific heat of various rocks over a temperature range based on their chemical composition. The package leverages the Shomate scheme to match empirical data, ensuring high accuracy in predictions. It includes an extensive database of specific heat values for a wide array of common rock-forming minerals and compounds, while also allowing users to input custom compounds for tailored analyses. By integrating thermodynamic principles with empirical models, the package effectively computes specific heat variations with temperature, accommodating diverse rock types. The user-friendly interface supports input of chemical composition data—such as SiO2, Al2O3, Fe2O3, and other oxides—enabling geologists and engineers to obtain reliable specific heat estimates across different temperatures. This tool is particularly valuable in scenarios where direct measurement of temperature-dependent specific heat is challenging, offering a robust solution for thermal management in geological formations.",

author = "Sushrut Deshpande and Maarten Vergote and Bart Janssens and Vincent Lemort",

year = "2025",

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A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION. / Deshpande, Sushrut ; Vergote, Maarten ; Janssens, Bart et al.
Proceedings of the 1st Belgian Symposium of Thermodynamics (Carnot 2024. 2025. S. 31 (Proceedings of the 1st Belgian Symposium of Thermodynamics (Carnot 2024); Band 1, Nr. 1).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

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T1 - A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION

AU - Deshpande, Sushrut

AU - Vergote, Maarten

AU - Janssens, Bart

AU - Lemort, Vincent

PY - 2025/12/1

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N2 - Accurate prediction of temperature-dependent specific heat in rocks is essential for advanced thermal modelling in geophysical and geothermal applications. This study introduces a comprehensive computational package developed in Julia, designed to calculate the specific heat of various rocks over a temperature range based on their chemical composition. The package leverages the Shomate scheme to match empirical data, ensuring high accuracy in predictions. It includes an extensive database of specific heat values for a wide array of common rock-forming minerals and compounds, while also allowing users to input custom compounds for tailored analyses. By integrating thermodynamic principles with empirical models, the package effectively computes specific heat variations with temperature, accommodating diverse rock types. The user-friendly interface supports input of chemical composition data—such as SiO2, Al2O3, Fe2O3, and other oxides—enabling geologists and engineers to obtain reliable specific heat estimates across different temperatures. This tool is particularly valuable in scenarios where direct measurement of temperature-dependent specific heat is challenging, offering a robust solution for thermal management in geological formations.

AB - Accurate prediction of temperature-dependent specific heat in rocks is essential for advanced thermal modelling in geophysical and geothermal applications. This study introduces a comprehensive computational package developed in Julia, designed to calculate the specific heat of various rocks over a temperature range based on their chemical composition. The package leverages the Shomate scheme to match empirical data, ensuring high accuracy in predictions. It includes an extensive database of specific heat values for a wide array of common rock-forming minerals and compounds, while also allowing users to input custom compounds for tailored analyses. By integrating thermodynamic principles with empirical models, the package effectively computes specific heat variations with temperature, accommodating diverse rock types. The user-friendly interface supports input of chemical composition data—such as SiO2, Al2O3, Fe2O3, and other oxides—enabling geologists and engineers to obtain reliable specific heat estimates across different temperatures. This tool is particularly valuable in scenarios where direct measurement of temperature-dependent specific heat is challenging, offering a robust solution for thermal management in geological formations.

M3 - Conference contribution

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BT - Proceedings of the 1st Belgian Symposium of Thermodynamics (Carnot 2024

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A JULIA-BASED COMPUTATIONAL PACKAGE FOR PREDICTING TEMPERATURE- DEPENDENT SPECIFIC HEAT OF ROCKS USING CHEMICAL COMPOSITION

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