Abstract
Historical slag dumps are of increasing interest due to economic, environmental or archaeological reasons. Geophysical investigations can help accessing the potential reuse of slag material to recover metallic raw material or for the estimation of the hazard potential of the buried slag material due to dissolution occurrence.In our study, we have investigated various slag material in the laboratory with the spectral induced polarization (SIP) method, obtained from different historical slag dumps, located in the Harz Mountains, Germany. We also present SIP results from field measurements at a historical slag dump where most of the slag samples reveal high amounts of iron, zinc, silica, and barium.Our results reveal a discrimination between three different slag grades (low, medium, high) by using the imaginary conductivity σ″ at a medium frequency (1–10 Hz) in both laboratory and field. Furthermore, additional information is obtained by a classification based on the spectral polarization behaviour and considering the field frequency range (0.1 Hz – 100 Hz). Five different types of spectra (ascending, descending, constant, maximum and minimum type) can be discriminated and recognized in the laboratory and in distinct areas of the slag dump. Even though a direct comparison between the laboratory and field results still needs to be proven, the buried slag material can be differentiated from the surrounding material by the polarization magnitude.
Highlights
Decreasing ore grades within deposits, the increasing demand for raw materials and volatile prices due to political influence on the mar kets, have raised awareness to the diversification of supply
We have investigated various slag material in the laboratory with the spectral induced polari zation (SIP) method, obtained from different historical slag dumps, located in the Harz Mountains, Germany
We present SIP results from field measurements at a historical slag dump where most of the slag samples reveal high amounts of iron, zinc, silica, and barium
Summary
Decreasing ore grades within deposits, the increasing demand for raw materials and volatile prices due to political influence on the mar kets, have raised awareness to the diversification of supply. One po tential important source to meet the needs can be to recover raw materials from mining waste (Kuhn and Meima, 2019). Due to former no-need or inefficient ore processing in the past, many old mining waste sites in the Harz Mountains, Germany, still contain high metal contents, which might be worthwhile to explore. Due to the presence of heavy metal contents, mine waste does represent a stock of valuable raw materials but has a considerable risk for the contamination of groundwater, surface water, soils, and sediments. The costs for remediating mine waste bodies must be included in cost-benefit considerations
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