Sören Henning scite author profile

Sören Henning

2Publications

1Citation Statement Received

46Citation Statements Given

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Federal Institute for Geosciences and Natural Resources

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The new critical metals database “HTMET”: High tech trace element characteristics of sulphides from base metal provinces in the Variscan basement and adjacent sedimentary rocks in Germany

Henning¹,

Birkenfeld²,

Graupner³

et al. 2019

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High tech (HT) trace elements such as germanium, gallium and indium gain rising importance in the development of innovative technologies. The database "HTMET" forms the first nationwide metal-ore database for Germany, created to visualise HT metal characteristics of base metal ores from important mining districts. Mineralogical and geochemical investigations on 478 samples and ore concentrates from 109 Pb-Zn-Cu occurrences were carried out using analytical methods with high spatial resolution and bulk sample methods. The database provides aggregated data based on 17,000 geochemical data sets, compiled information on regional infrastructure and environmental risks as well as data on innovative raw material-efficient processing techniques. Evaluation of combined data provides interactive maps revealing new potentials for specific HT metals in Germany. Differences in regional distribution of these trace elements and dependency of their concentration levels in the ore on the genetic deposit type became apparent. Sphalerite from the sediment-hosted massive sulphide (SHMS) deposit "Rammelsberg" and skarn deposits in the Erzgebirge contain elevated indium contents (median 14-119 ppm), whereas the SHMS deposit "Meggen" is poor in HT metals. Germanium forms the predominant HT trace element in colloform sphalerite of Mississippi-Valley-Type (MVT) deposits (median 29-147 ppm); in contrast, crystalline sphalerite is low in germanium in this deposit type. Sphalerite in all hydrothermal vein deposits shares a distinct enrichment in gallium (median 6-81 ppm); however, germanium and indium concentrations vary significantly depending on the metal source and fluid conditions. The Ruhrgebiet and the Schwarzwald ore veins show an enrichment in germanium (median 55-73 ppm), whilst vein sphalerite from the Erzgebirge is specialised in indium (median 33 ppm). The data demonstrate that the HT trace element inventory of the studied base metal sulphides is not only a function of the genetic ore deposit type, but is also triggered by locally variable geology such as source rock and fluid composition and organic content of the rock. Gallium seems to derive from adjacent lithologies, whereas indium and germanium may have more distant sources. Kurzfassung: Durch die fortschreitende Verbreitung und Weiterentwicklung von modernen Technologien erlangen die sogenannten hochtechnologierelevanten (HT) Spurenelemente Germanium, Gallium und Indium steigende Bedeutung. Die "HTMET"-Datenbank ist das erste deutschlandweite Metallerz-Kataster, welches die HT-Metall-"Spezialisierung" wichtiger Buntmetall-Bergbaudistrikte reflektiert. An 478 Erzproben und-konzentraten aus 109 Pb-Zn-Cu-Vorkommen wurden mittels hochortsaufgelösten Punktanalysen und nasschemischen Gesamterzmessungen mineralogische und geochemische Untersuchungen durchgeführt. Die Datenbank beinhaltet aggregierte Daten von 17.000 geochemischen Datensätzen, Informationen zur regionaler Infrastruktur und möglichen Umweltrisiken, sowie Ergebnisse aus innovativen, rohstoffeffizienten Aufbereitungs...

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Processes of Enrichment of Trace Metals for High-Tech Applications in Hydrothermal Veins of the Ruhr Basin and the Rhenish Massif, Germany

Henning

Graupner

Krassmann³

et al. 2022

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The increasing demand for high-tech trace elements supports the need for systematic investigations of their primary occurrences. Mineralogy and trace element characteristics of hydrothermal base-metal veins from the Ruhr Basin (Ruhrgebiet) and the Rhenish Massif (Bergisches Land) in Germany were studied by energy-dispersive X-ray fluorescence mapping, laser ablation-ICP-mass spectrometry, and electron microprobe analyses. Quantitative trace element analysis proves elevated concentrations of Ge and Ga in sphalerite from the Ruhrgebiet. In addition to about 6 Mt of sphalerite-dominated ore, a potential of about 10 t of Ge is indicated to be concentrated in the Auguste Victoria and Graf-Moltke base-metal deposits in the Ruhrgebiet. Assessments on physicochemical fluid properties and metal sources using vitrinite reflectance analysis and host rock investigation indicate a genetic link between the Carboniferous carbonaceous rocks (hosting a number of coal seams) and significant trace metal enrichment in the veins. Gallium enrichment, outlining primary growth zones in ore stage 1 sphalerite, is facilitated by the alteration of Al-bearing minerals in adjacent host rocks due to intense fluid/rock interaction. Reduced Ga and very low In concentrations in ore stage 2 may reflect sealed fluid pathways or changes in the fluid properties. The high level of organic matter in the system probably supported enrichment of Ge in the hydrothermal fluids. The constantly high levels of fixation of Ge in sector zoning patterns of the sphalerite during both ore stages indicate a continuous supply. Elevated contents of Sb together with Cu, As, and Pb in sectors of the sphalerite grains point to a local enrichment of nanometer-scale inclusions of sulfosalt-like phases. Sphalerite of both districts and even of the two ore stages in the Ruhrgebiet shows variations in δ34S isotope compositions due to varying sulfur sources. Both the host rock composition and the presence of organic matter contributed to the trace metal enrichment in the Ruhrgebiet base-metal sulfides as compared to the low contents typical of base-metal ore from the Bergisches Land.

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Sören Henning

The new critical metals database “HTMET”: High tech trace element characteristics of sulphides from base metal provinces in the Variscan basement and adjacent sedimentary rocks in Germany

Processes of Enrichment of Trace Metals for High-Tech Applications in Hydrothermal Veins of the Ruhr Basin and the Rhenish Massif, Germany

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