Mineral, thermal and deep groundwater of Hesse, Germany

Rafael Schäffer,Johann-Gerhard Fritsche,Sebastian Fischer,Kristian Bär,Ingo Sass

doi:10.5194/essd-13-4847-2021

Abstract

Abstract. The composition of mineral, thermal or deep groundwaters is of interest for several geotechnical applications, such as drinking-water supply, spas or geothermal energy. Verified and reliable knowledge of temperature, pH, hydrochemical composition and other parameters is crucial to extract fluids with as few technical problems as possible and exploit groundwater reservoirs economically and environmentally sustainably. However, at sites where empirical data are lacking, the correct prediction of fluid properties is often difficult, resulting in considerable economic risks. Here we present the first comprehensive and publicly available database of mineral, thermal and deep groundwaters of Hesse compiled from published and our own data. Presently, it contains 1035 datasets from 560 different springs or wells sampled since 1810. A dataset consists of metadata like location; altitude; depth; rock type or stratigraphic unit; information on the water type; references; physical–chemical parameters; concentrations of major, minor and trace elements; and content of dissolved and free gases as well as isotope data. The dataset allows the evaluation of time series and distribution of groundwater properties both laterally and vertically. We show a simple statistical evaluation based on the five major hydrogeological regions of Hesse. Our database can be used to re-evaluate genesis and circulation of deep groundwaters, to estimate reservoir temperatures with a solution geothermometer, or to assess groundwater ages by means of isotope data. It can also be useful for a first conception of deep geothermal utilization. In the future, an update and extension of the database is intended. The database of mineral, thermal and deep groundwaters of Hesse has been made available by Schäffer et al. (2020) in xlsx and csv file format at TUdatalib, https://doi.org/10.25534/tudatalib-340. The second updated version of the database can be accessed directly at https://tudatalib.ulb.tu-darmstadt.de/handle/tudatalib/2508.2 (last access: 20 October 2021).

Highlights

1.1 MotivationThe physical and chemical properties of groundwater determine its suitability for drinking water, thermal water, mineral water, mineral extraction, heat extraction and so on
We developed the database of mineral, thermal and deep groundwaters of the federal state of Hesse, Germany
For deeper aquifers it is necessary to compile a complementary database on natural mineral, thermal and deep groundwaters

Summary

Introduction

The physical and chemical properties of groundwater determine its suitability for drinking water, thermal water, mineral water, mineral extraction, heat extraction and so on It impacts largely its technical utilization since changes in temperature and pressure influence processes like scaling, corrosion or degassing, resulting in further costs for remediation measures (Wolfgramm et al, 2011). Knowledge of the hydrochemistry is imperative in order to foresee technical or economic challenges which might emerge during utilization For this purpose, we developed the database of mineral, thermal and deep groundwaters of the federal state of Hesse, Germany. We developed the database of mineral, thermal and deep groundwaters of the federal state of Hesse, Germany It compiles 1035 published hydrochemical datasets from 560 different measurement points in the entire Hessian territory and some adjacent areas. It has been compiled by the TU Darmstadt in close

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Conclusion