Regenerative Energie
Analyzing material streams is a crucial topic in the primary and secondary raw materials industry.
Knowing the composition of a material stream can lead to improved materials handling and better process control and therefore to a better overall efficiency of the plant. As stated in [NIE14] several sensor types are used for material identification and characterization. Most common are visual sensors, laser-induced fluorescence, x-ray transmission, near infrared and Raman spectroscopy.
The target of this paper is to present a new method of an online material stream analysis based on Acoustic Emission (AE) Technology. In order to show the potential of an online AE analysis two different approaches are presented and discussed separately. In both approaches AE data is gathered and analyzed with respect to material composition.
| Copyright: | © ANTS - Institut für anthropogene Stoffkreisläufe an der RWTH Aachen |
| Quelle: | SBSC 2016 (Februar 2016) |
| Seiten: | 10 |
| Preis: | € 0,00 |
| Autor: | M.Sc. Tobias Vraetz Henning Knapp Univ.-Prof. Dr.- Ing. Hermann Wotruba M.Sc. Kilian Neubert Univ.-Prof. Dr.-Ing. Karl Nienhaus |
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Rechtliche und praktische Unsicherheiten bei der Durchführung des europäischen Klimaanpassungsrechts durch das Bundes- Klimaanpassungsgesetz (KAnG)
© Lexxion Verlagsgesellschaft mbH (6/2025)
In the context of the European Climate Law (EU) 2021/1119), the Governance Regulation (EU) 2018/1999 and the Nature Restoration Regulation (EU) 2024/1991, the KAnG came into force on July 1, 2024.
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© Lexxion Verlagsgesellschaft mbH (6/2025)
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© Springer Vieweg | Springer Fachmedien Wiesbaden GmbH (5/2025)
Die Landestalsperrenverwaltung des Freistaates Sachsen (LTV) betreibt aktuell insgesamt 87 Stauanlagen, darunter 25 Trinkwassertalsperren. Der Stauanlagenbestand ist historisch gewachsen und wurde für unterschiedliche Zwecke errichtet.