Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America

Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America

Bibliographic Details
Main Author: Grimaldi, David Andres
Language:English
Published: Ohio University / OhioLINK 2021
Subjects:
Earth
Energy
Environmental Geology
Geochemistry
Geographic Information Science
Geology
Natural Resource Management
Statistics
Geothermal
Statistical Analysis
Geographical Weighted Regression
Mass Balance
Carbon Dioxide Balance
Geothermal Field
San Vicente
El Salvador
Online Access:http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1615276127141058
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spelling ndltd-OhioLink-oai-etd.ohiolink.edu-ohiou16152761271410582021-08-03T07:16:50Z Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America Grimaldi, David Andres Earth Energy Environmental Geology Geochemistry Geographic Information Science Geology Natural Resource Management Statistics Geothermal Geochemistry Statistical Analysis Geographical Weighted Regression Mass Balance Carbon Dioxide Balance Geothermal Field San Vicente El Salvador Past geological, geochemical and geophysical studies by LaGeo have shown the presence of a 12 km2 geothermal reservoir at San Vicente Geothermal Field (SVGF) . This reservoir has an estimated thickness of 600 to 1200 m underneath a 600 to 800 m thick capping rock. All this located under the northern flank of San Vicente volcano. Potential drilling targets for geothermal exploitation are determined through visual geographical correlation of geological, geochemical and geophysical variables. However there are statistical methods such as geographical weighted regression and cluster analysis that allow us to establish statistical correlation between the geochemical and geophysical variables that are related to fluid storage and flow. Carbon dioxide (CO2) diffuse degassing and other gases, and geophysical variables such as resistivity and gravity, are related to high permeability areas, such as faults, and underground fluid movement within a geothermal field. In order to establish more accurate drilling targets for geothermal exploitation, a better and more objective data interpretation can be achieved by establishing the statistical correlation of CO2 diffuse degassing to other geochemical or geophysical variables. We have used Geographically Weighted Regression (GWR) models via computer program GWR4 to determine the statistical correlation between the space dependent geophysical and geochemical variables. Data from San Vicente Geothermal Field in El Salvador was used to determine the spatial correlations between CO2 soil concentration and the concentrations of He, 222Rn, 220Rn, Hg, resistivity and gravity measurements. Bivariate GWR showed statistically significant correlations between CO2 diffuse degassing, He concentration, Hg concentration, 222Rn concentration, 220Rn concentration and Magneto-telluric measurements. He concentration had the greatest statistical weight (푅푝 2 = 0.55, F = 7.21, p < 0.001). Stepwise multivariate GWR was applied and the most statistically significant multivariate regression model for CO2 soil concentration included He concentration, Hg concentration, 222Rn concentration, 220Rn concentration and Magneto-telluric measurements (푅푝 2 = 0.69, F = 6.79, p < 0.001). Geophysical and geochemical variables appear to be strongly correlated. This behavior is the result of the influence of the geological properties and fluid storage and movement on the released gases from thereservoir and the variations in the geophysical properties.Data integration demonstrated that this type of statistical analysis can provide an additional layer of robustness in the decision making process in the search for potential drilling targets.There is a potential groundwater recharge of 26.37% of the total precipitation in the area to the shallow aquifer. This shallow aquifer has low productivity and has low porosity.Most of the carbon dioxide flowing through the fissured deeper aquifer and the shallow aquifer is degassed from a deeper magmatic chamber. The atmospheric carbon dioxide dissolved in rainfall contribution to the system is negligible compared to the amount of carbon dioxide contributed by the magma chamber. 2021-05-26 English text Ohio University / OhioLINK http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1615276127141058 http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1615276127141058 unrestricted This thesis or dissertation is protected by copyright: all rights reserved. It may not be copied or redistributed beyond the terms of applicable copyright laws.
collection NDLTD
language English
sources NDLTD
topic Earth
Energy
Environmental Geology
Geochemistry
Geographic Information Science
Geology
Natural Resource Management
Statistics
Geothermal
Geochemistry
Statistical Analysis
Geographical Weighted Regression
Mass Balance
Carbon Dioxide Balance
Geothermal Field
San Vicente
El Salvador
spellingShingle Earth
Energy
Environmental Geology
Geochemistry
Geographic Information Science
Geology
Natural Resource Management
Statistics
Geothermal
Geochemistry
Statistical Analysis
Geographical Weighted Regression
Mass Balance
Carbon Dioxide Balance
Geothermal Field
San Vicente
El Salvador
Grimaldi, David Andres
Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
author Grimaldi, David Andres
author_facet Grimaldi, David Andres
author_sort Grimaldi, David Andres
title Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
title_short Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
title_full Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
title_fullStr Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
title_full_unstemmed Dissolved Gases and a Carbon Dioxide Balance from the San Vicente Geothermal Fieldin El Salvador, Central America
title_sort dissolved gases and a carbon dioxide balance from the san vicente geothermal fieldin el salvador, central america
publisher Ohio University / OhioLINK
publishDate 2021
url http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1615276127141058
work_keys_str_mv AT grimaldidavidandres dissolvedgasesandacarbondioxidebalancefromthesanvicentegeothermalfieldinelsalvadorcentralamerica
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