Abstract
Inverse geochemical modeling was used in this paper to quantitatively study the formation mechanisms of groundwater in Pengyang County, China. An improved TOPSIS method based on entropy weight was used to perform groundwater quality assessment in this area. The assessment results show that the groundwater in the study area is fit for human consumption and the high concentrations of some elements can be attributed to the strong water‐rock interactions. The inverse geochemical modeling reveals that the dominant reactions in different parts of the study area are different. In the south part of the study area, the precipitation of sodium montmorillonite, calcite and the dissolution of gypsum, fluorite, halite, albite and dolomite as well as CO2 dissolution and cation exchange are the major water‐rock interactions, while in the north part, the leading reactions are the precipitation of gypsum, dolomite, sodium montmorillonite, fluorite, the dissolution of calcite and albite and the CO2 emission and cation exchange are also important. All these reactions are influenced by the initial aquatic environment and hydrodynamic conditions of the flow path.
Highlights
Groundwater is regarded as one of the most valuable and essential natural resources, yet fresh groundwater systems have been directly and continuously threatened by human activities recent years
Based on the collection and chemical analysis of groundwater samples, entropy weighted TOPSIS method is used to perform groundwater quality assessment in this study and inverse geochemical modeling is used in this paper to quantitatively study the formation mechanisms of groundwater
The following conclusions are summarized: (1) Groundwater quality assessment results show that the groundwater in Pengyang County is generally fit for human consumptions and the high concentrations of some elements or irons are attributed to the strong water-rock interactions which are highly depended on the hydrogeological conditions and hydrodynamic conditions along the groundwater flow path
Summary
Groundwater is regarded as one of the most valuable and essential natural resources, yet fresh groundwater systems have been directly and continuously threatened by human activities recent years. The inverse geochemical modeling requires that water sampling points be in the same water flow path[4]. According to the measurement and analysis of aquifer minerals, groundwater chemical compositions and conditions of groundwater occurrence, halite, sodium montmorillonite, calcite, dolomite, gypsum, halite, fluorite, albite, K-feldspar and CO2 are selected as the possible mineral phases.
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