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Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”)
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Roded, R; Aharonov, E; Szymczak, P; Veveakis, M; Lazar, B; Dalton, LE
February 6, 2024
Duke Scholars
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Roded, R., Aharonov, E., Szymczak, P., Veveakis, M., Lazar, B., & Dalton, L. E. (2024). Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”). Copernicus GmbH. https://doi.org/10.5194/hess-2023-307
Roded, Roi, Einat Aharonov, Piotr Szymczak, Manolis Veveakis, Boaz Lazar, and Laura E. Dalton. “Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”).” Copernicus GmbH, February 6, 2024. https://doi.org/10.5194/hess-2023-307.
Roded R, Aharonov E, Szymczak P, Veveakis M, Lazar B, Dalton LE. Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”). Copernicus GmbH. 2024.
Roded, Roi, et al. “Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”).” Copernicus GmbH, 6 Feb. 2024. Crossref, doi:10.5194/hess-2023-307.
Roded R, Aharonov E, Szymczak P, Veveakis M, Lazar B, Dalton LE. Solutions for Thermally-driven Reactive Transport and Porosity Evolution in Geothermal Systems (“Reactive Lauwerier Problem”). Copernicus GmbH. 2024.