2022
DOI: 10.1111/gwat.13264
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The Possible Source of Abnormally High Sodium Content in Low‐Salinity Geothermal Water

Abstract: The dissolution of sodium-containing minerals in high-temperature geothermal systems can cause Na + to exceed 400 mg/L with high salinity. But the Na + of low-salinity geothermal water is mostly less than 100 mg/L in medium-low temperature geothermal systems. However, geothermal water with Na + up to 325.4 mg/L and total dissolved solids less than 650 mg/L was found in the Huangshadong geothermal field, which is a typical medium-low temperature hydrothermal system in South China. The water chemistry results in… Show more

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Cited by 9 publications
(3 citation statements)
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“…The electrical conductivity was excluded due to peculiarity with TDS. The TDS measures water's ionic content from rock mineral dissolution [104,105]. A significant relationship between TDS and some elements indicates a major elemental effect on the hydrochemistry of groundwater [106,107].…”
Section: Multiple Regression Analysismentioning
confidence: 99%
“…The electrical conductivity was excluded due to peculiarity with TDS. The TDS measures water's ionic content from rock mineral dissolution [104,105]. A significant relationship between TDS and some elements indicates a major elemental effect on the hydrochemistry of groundwater [106,107].…”
Section: Multiple Regression Analysismentioning
confidence: 99%
“…9a), indicating cation exchange had occurred. In geothermal water, Na + deposited by clay minerals in the surrounding rock was exchanged for Ca 2+ and Mg 2+ , which increased Na + and decreased Ca 2+ and Mg 2+ (Mao et al, 2022). Samples of surface water and cold springs are concentrated near the origin and are not significantly affected by cation exchange processes.…”
Section: Cation Exchangementioning
confidence: 99%
“…In this paper, a set of hydrochemical and isotopic data from a convective geothermal system is employed to assess the magnitude of the additional driving force in the discharge section and the effect on the velocity of groundwater flow in the Huangshadong geothermal field, South China. The hydrochemical characteristics of Huangshadong geothermal field and the sources of hydrochemical components have been discussed (Mao et al, 2022), but the distribution of temperature and flow velocity of geothermal water in Huangshadong geothermal field is rarely discussed. Here, we try to identify a quantitative method for evaluating geothermal driving forces and to provide new insights for their effects on the velocity of groundwater flow.…”
Section: Introductionmentioning
confidence: 99%