Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System

Digital

Autores:: Chaparro, Iván
Sánchez, Yuly
Mehrvar, Mehrab
McCarthy, Lynda
Quiñones, Edgar
Santos, German
Robles, Emiro

Tipo de recurso:: Article of journal

Fecha de publicación:: 2021

Institución:: Escuela Colombiana de Ingeniería Julio Garavito

Repositorio:: Repositorio Institucional ECI

Idioma:: eng

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dc.title.eng.fl_str_mv	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
title	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
spellingShingle	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System Ingeniería geotérmica Geothermal engineering Hidrogeología Hydrogeology Aguas subterráneas Groundwater Geothermal Groundwater Modflow MODELMUSE Paipa Sochagota
title_short	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
title_full	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
title_fullStr	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
title_full_unstemmed	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
title_sort	Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System
dc.creator.fl_str_mv	Chaparro, Iván Sánchez, Yuly Mehrvar, Mehrab McCarthy, Lynda Quiñones, Edgar Santos, German Robles, Emiro
dc.contributor.author.none.fl_str_mv	Chaparro, Iván Sánchez, Yuly Mehrvar, Mehrab McCarthy, Lynda Quiñones, Edgar Santos, German Robles, Emiro
dc.contributor.researchgroup.spa.fl_str_mv	Centro de Estudios Ambientales
dc.subject.armarc.none.fl_str_mv	Ingeniería geotérmica Geothermal engineering Hidrogeología Hydrogeology Aguas subterráneas Groundwater
topic	Ingeniería geotérmica Geothermal engineering Hidrogeología Hydrogeology Aguas subterráneas Groundwater Geothermal Groundwater Modflow MODELMUSE Paipa Sochagota
dc.subject.proposal.eng.fl_str_mv	Geothermal Groundwater Modflow MODELMUSE Paipa Sochagota
description	Digital
publishDate	2021
dc.date.issued.none.fl_str_mv	2021
dc.date.accessioned.none.fl_str_mv	2024-10-07T15:04:47Z
dc.date.available.none.fl_str_mv	2024-10-07T15:04:47Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.type.content.spa.fl_str_mv	Text
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dc.identifier.issn.spa.fl_str_mv	2220-7112
dc.identifier.uri.none.fl_str_mv	https://repositorio.escuelaing.edu.co/handle/001/3297
identifier_str_mv	2220-7112
url	https://repositorio.escuelaing.edu.co/handle/001/3297
dc.language.iso.spa.fl_str_mv	eng
language	eng
dc.relation.ispartofjournal.spa.fl_str_mv	Encuentro
dc.relation.references.spa.fl_str_mv	Albert, J. F., Corominas, J. & Paris, C. The hydrogeological study of the springs and their geological application: case of the thermal, carbonic and sulfhydric waters of Catalonia. Acta Geològica Hispànica. Tribute to Lluís Solé i Sabarís. 14, 391-394 (1979). Alfaro – Valero, C. M. et al. Paipa Geothermal System, Boyacá: Review of Exploration Studies and Conceptual Model. Geol. Colomb. 4, 36 (2020) Chaparro, I. C. Approach to a mathematical model for the evaluation of thermal water aquifers: a case study of the paipa geothermal system. (Colombian School of Engineering Julio Garavito, 2020). López Velandia, C. C. Analysis of the physicochemical characteristics of the groundwater of the Chicú river basin, Colombia, using hydrochemical indicators and multivariate statistics. 14, 35-68 (2018). Moreno, D., Lopez-Sanchez, J., Blessent, D. & Raymond, J. Fault characterization and heat-transfer modeling to the Northwest of Nevado del Ruiz Volcano. J. South Am. Earth Sci. 88, 50–63 (2018). Municipal Mayor of Paipa. Economy. Available at: http://www.paipa-boyaca.gov.co/MiMunicipality/Paginas/Economia.aspx. (Accessed: 26th February 2019) Ojha, C., Shirzaei, M., Werth, S., Argus, D. F. & Farr, T. G. Sustained Groundwater Loss in California’s Central Valley Exacerbated by Intense Drought Periods. Water Resourses. 54, 4449-4460 (2018). Öztekin Okan, Ö., Kalender, L. & Çetindağ, B. Trace-element hydrogeochemistry of thermal waters of Karakoçan (Elazığ) and Mazgirt (Tunceli), Eastern Anatolia, Turkey. J. Geochemical Explor. 194, 29–43 (2018) Rojas Martínez, E., Fortich Duarte, M. & Pavajeau Maestre, H. Determination of the origin and composition of the thermal waters located in the municipalities of Becerril (Cesar) and Ciénaga (Magdalena), Colombia. Ingenium 8, 35 (2014). Suzuki, Y., Ioka, S. & Muraoka, H. Geothermal resource exploration by stream pH mapping in Mutsu Hiuchi Dake volcano, Japan. Energies 10, 1–11 (2017). Velandia Nossa, f. a. Geological-geophysical study for the search for underground waters and pre-design of a well, vereda Toibia, Paipa Boyacá. 1, 77-87 (2015).
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dc.format.extent.spa.fl_str_mv	10 p.
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dc.publisher.spa.fl_str_mv	Stanford School of Earth, Energy & Environmental Sciences
institution	Escuela Colombiana de Ingeniería Julio Garavito
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spelling	Chaparro, Ivánb3da05ce29fd58582631ff5a8b268a90Sánchez, Yulyba6a2ce58d39c4a3f25df2e4802eca80Mehrvar, Mehrab742a15a683e7bce0f63a4b98c27ab7d3McCarthy, Lynda1d146b813709d5ffb988de92072eace9Quiñones, Edgar3075cc864725144663eb28a06ad8a34dSantos, Germanf44da05ef16c28c2ddcf571f3f124fd0Robles, Emiro435f6a31ef5924ee6e74c98b11c3f2b5Centro de Estudios Ambientales2024-10-07T15:04:47Z2024-10-07T15:04:47Z20212220-7112https://repositorio.escuelaing.edu.co/handle/001/3297DigitalThe Paipa geothermal aquifer system, located in the axial zone of the eastern mountain range of Colombia, is the municipality's tourism industry base. Sedimentary rocks characterize the geology of the region, with some magmatic intrusions. This study presents a mathematical modelling approach of the system, considering information from secondary sources. The model shows that the information available is not sufficient to prepare a complete model. Data on the volumes exploited from the aquifer by the tourism industry is not sufficient. Furthermore, there is no information on pumping tests to establish the hydraulic conductivity of materials in the area. The results of the mathematical modelling approach show the relevance of alluvial deposits for the interaction between the geothermal system, the Chicamocha River, and Sochagota Lake. Also, it shows the relevance of the interaction between intrusions of magmatic origin and the groundwater flow within the aquifer, and the possibility of secondary permeability of this material. The simulation highlights the importance of the Tilatá formation, and the clay rocks of the Guaduas formation, in the behavior of the aquifer.10 p.application/pdfengStanford School of Earth, Energy & Environmental SciencesMathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal SystemArtículo de revistainfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/coar/version/c_970fb48d4fbd8a85EncuentroAlbert, J. F., Corominas, J. & Paris, C. The hydrogeological study of the springs and their geological application: case of the thermal, carbonic and sulfhydric waters of Catalonia. Acta Geològica Hispànica. Tribute to Lluís Solé i Sabarís. 14, 391-394 (1979).Alfaro – Valero, C. M. et al. Paipa Geothermal System, Boyacá: Review of Exploration Studies and Conceptual Model. Geol. Colomb. 4, 36 (2020)Chaparro, I. C. Approach to a mathematical model for the evaluation of thermal water aquifers: a case study of the paipa geothermal system. (Colombian School of Engineering Julio Garavito, 2020).López Velandia, C. C. Analysis of the physicochemical characteristics of the groundwater of the Chicú river basin, Colombia, using hydrochemical indicators and multivariate statistics. 14, 35-68 (2018).Moreno, D., Lopez-Sanchez, J., Blessent, D. & Raymond, J. Fault characterization and heat-transfer modeling to the Northwest of Nevado del Ruiz Volcano. J. South Am. Earth Sci. 88, 50–63 (2018).Municipal Mayor of Paipa. Economy. Available at: http://www.paipa-boyaca.gov.co/MiMunicipality/Paginas/Economia.aspx. (Accessed: 26th February 2019)Ojha, C., Shirzaei, M., Werth, S., Argus, D. F. & Farr, T. G. Sustained Groundwater Loss in California’s Central Valley Exacerbated by Intense Drought Periods. Water Resourses. 54, 4449-4460 (2018).Öztekin Okan, Ö., Kalender, L. & Çetindağ, B. Trace-element hydrogeochemistry of thermal waters of Karakoçan (Elazığ) and Mazgirt (Tunceli), Eastern Anatolia, Turkey. J. Geochemical Explor. 194, 29–43 (2018)Rojas Martínez, E., Fortich Duarte, M. & Pavajeau Maestre, H. Determination of the origin and composition of the thermal waters located in the municipalities of Becerril (Cesar) and Ciénaga (Magdalena), Colombia. Ingenium 8, 35 (2014).Suzuki, Y., Ioka, S. & Muraoka, H. Geothermal resource exploration by stream pH mapping in Mutsu Hiuchi Dake volcano, Japan. Energies 10, 1–11 (2017).Velandia Nossa, f. a. Geological-geophysical study for the search for underground waters and pre-design of a well, vereda Toibia, Paipa Boyacá. 1, 77-87 (2015).info:eu-repo/semantics/closedAccesshttp://purl.org/coar/access_right/c_14cbIngeniería geotérmicaGeothermal engineeringHidrogeologíaHydrogeologyAguas subterráneasGroundwaterGeothermalGroundwaterModflowMODELMUSEPaipaSochagotaTHUMBNAILMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdf.jpgMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdf.jpgGenerated Thumbnailimage/jpeg14480https://repositorio.escuelaing.edu.co/bitstream/001/3297/5/Mathematical%20Modelling%20Approach%20for%20Evaluation%20of%20Thermal%20Water%20Aquifers%20A%20Case.pdf.jpg58c55f846ce1c829807b0d6c907b6407MD55metadata only accessportada.PNG.jpgportada.PNG.jpgGenerated Thumbnailimage/jpeg12948https://repositorio.escuelaing.edu.co/bitstream/001/3297/6/portada.PNG.jpg51d3d40fc39a7ee57aea312246a3c94dMD56open accessTEXTMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdf.txtMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdf.txtExtracted texttext/plain27323https://repositorio.escuelaing.edu.co/bitstream/001/3297/4/Mathematical%20Modelling%20Approach%20for%20Evaluation%20of%20Thermal%20Water%20Aquifers%20A%20Case.pdf.txt0289a44a78dd93d5b80dae57423ae4daMD54metadata only accessLICENSElicense.txtlicense.txttext/plain; charset=utf-81881https://repositorio.escuelaing.edu.co/bitstream/001/3297/2/license.txt5a7ca94c2e5326ee169f979d71d0f06eMD52open accessORIGINALMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdfMathematical Modelling Approach for Evaluation of Thermal Water Aquifers A Case.pdfapplication/pdf947311https://repositorio.escuelaing.edu.co/bitstream/001/3297/1/Mathematical%20Modelling%20Approach%20for%20Evaluation%20of%20Thermal%20Water%20Aquifers%20A%20Case.pdf1e1aab66d0ed04ab7c90bc8978652fa7MD51metadata only accessportada.PNGportada.PNGimage/png164928https://repositorio.escuelaing.edu.co/bitstream/001/3297/3/portada.PNG094433441ad21de1427021338fea3835MD53open access001/3297oai:repositorio.escuelaing.edu.co:001/32972024-10-08 03:00:35.464metadata only accessRepositorio Escuela Colombiana de Ingeniería Julio Garavitorepositorio.eci@escuelaing.edu.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

Mathematical Modelling Approach for Evaluation of Thermal Water Aquifers: A Case Study of Paipa Geothermal System

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