Your search keyword '"Sofia Esperanza Garrido Hoyos"' showing total 3 results

1. Hydrogeochemistry and water-rock interactions in the urban area of Puebla Valley aquifer (Mexico)

Author

Ariadna Ocampo Astudillo, Edith Sánchez, Sofia Esperanza Garrido Hoyos, Manuel Martínez Morales, and M. V. Esteller

Subjects

Gypsum, 0208 environmental biotechnology, Population, Dolomite, Geochemistry, Aquifer, 02 engineering and technology, 010501 environmental sciences, engineering.material, 01 natural sciences, chemistry.chemical_compound, Geochemistry and Petrology, education, 0105 earth and related environmental sciences, Geochemical modeling, Hydrology, geography, education.field_of_study, geography.geographical_feature_category, 020801 environmental engineering, chemistry, engineering, Carbonate, Economic Geology, Water quality, Geology, Groundwater

Abstract

The urban area of Puebla Valley aquifer is seated in Puebla City and neighbor municipalities. Puebla is the fourth largest city in Mexico, where there are significant industrial zones and a large population. Water needs are almost exclusively met by groundwater, which has brought intense exploitation of groundwater resources and water quality degradation. The present study investigates the hydrogeochemical changes in groundwater, particularly focuses on the chemical changes produced by upwelling mineralized water. These concentrations may represent potential risks to the health of the population. The groundwater presented five types of families Ca-HCO3, Mg-HCO3, Mix-HCO3, HCO3-Ca-SO4 and Ca-SO4. The high concentrations of sulphates, calcium and magnesium are reflected in high TDS and Total Hardness. The samples collected showed detectable concentrations of F−, Fe, Mn, Ba, Sr, Cu, Zn, B and Li. The limitations for its use as drinking water are given by the high values of TDS, sulphates, total hardness and Mn. Geochemical modeling using Geochemist's Workbench (GWB) and PHREEQC software enabled the computation of the saturation index of mineral phases with ions in solution and speciation ions. Groundwater was initially in equilibrium with calcite; however, due to the changes in hydrogeological conditions, gypsum and dolomite are being dissolved until new equilibrium conditions are met. The additional calcium and carbonate in the water causes calcite to become oversaturated and to precipitate. Evidence of dedolomitization reactions and common ion effect is illustrated by concurrent increases in calcium and magnesium concentrations in the groundwater.

Published

2017

2. Groundwater optimization model for sustainable management of the Valley of Puebla aquifer, Mexico

Author

Manuel Martínez-Morales, Sofia Esperanza Garrido Hoyos, M. V. Esteller, and Edith R. Salcedo-Sánchez

Subjects

Global and Planetary Change, geography, Hydrogeology, geography.geographical_feature_category, Water table, MODFLOW, Hydrological modelling, Environmental engineering, Soil Science, Geology, Aquifer, Pollution, Sustainable management, Environmental Chemistry, Environmental science, Water quality, Groundwater, Earth-Surface Processes, Water Science and Technology

Abstract

The Valley of Puebla aquifer (VPA), at the central region of Mexico, is subject to intensive exploitation to satisfy the urban and industrial demand in the region. As a result of this increased exploitation, a number of state and federal agencies in charge of water management are concerned about the problems associated with the aquifer (decline of groundwater table, deterioration in water quality, poor well productivity and increased pumping and water treatment costs). This study presents a groundwater management model that combines “MODFLOW” simulation with optimization tools “MODRSP”. This simulation–optimization model for groundwater evaluates a complex range of management options to identify the strategies that best fit the objectives for allocating resources in the VPA. Four hypothetical scenarios were defined to analyze the response of the hydrogeological system for future pumping schemes. Based on the simulation of flow with the MODFLOW program, promising results for the implementation of the optimization of water quantity were found in scenarios 3 and 4. However, upon comparison and analysis of the feasibility of recovery of the piezometric level (considering the policy of gradual reductions of pumping), scenario 4 was selected for optimization purposes. The response functions of scenario 4 were then obtained and optimized, establishing an extraction rate of 204.92 millions of m3/year (Mm3/year). The reduction in groundwater extraction will be possible by substituting the volume removed by 35 wells (that should be discontinued) by the same volume of water from another source.

Published

2013

3. Application of water quality index to evaluate groundwater quality (temporal and spatial variation) of an intensively exploited aquifer (Puebla valley, Mexico)

Author

Sofia Esperanza Garrido Hoyos, Ma Vicenta Esteller Alberich, Edith R. Salcedo-Sánchez, and Manuel Martínez Morales

Subjects

media_common.quotation_subject, 0208 environmental biotechnology, Water supply, Aquifer, 02 engineering and technology, Environment, 010501 environmental sciences, Management, Monitoring, Policy and Law, Urban area, 01 natural sciences, Water Supply, Water Quality, Environmental monitoring, Humans, Quality (business), Groundwater, Mexico, 0105 earth and related environmental sciences, General Environmental Science, media_common, Hydrology, geography, geography.geographical_feature_category, Sulfates, business.industry, Drinking Water, Water, General Medicine, Pollution, 020801 environmental engineering, Environmental science, Spatial variability, Water quality, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The spatial and temporal variation of water quality in the urban area of the Puebla Valley aquifer was evaluated using historical and present data obtained during this investigation. The current study assessed water quality based on the Water Quality Index developed by the Canadian Council of Ministers of the Environment (CCME-WQI), which provides a mathematical framework to evaluate the quality of water in combination with a set of conditions representing quality criteria, or limits. This index is flexible regarding the type and number of variables used by the evaluation given that the variables of interest are selected according to the characteristics and objectives of development, conservation and compliance with regulations. The CCME-WQI was calculated using several variables that assess the main use of the wells in the urban area that is public supply, according to criteria for human use and consumption established by Mexican law and international standards proposed by the World Health Organization. The assessment of the index shows a gradual deterioration in the quality of the aquifer over time, as the amount of wells with excellent quality have decreased and those with lower index values (poor quality) have increased throughout the urban area of the Puebla Valley aquifer. The parameters affecting groundwater quality are: total dissolved solids, sulfate, calcium, magnesium and total hardness.

Published

2016