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ATHENA Research Book

Author: Ahmed Faisal
Bauermeister Hartmut
Dr. Loffeld Otmar
Haring Bolívar Peter
Heredia Conde Miguel
Hölzer Jonas Immanuel
Illg Christopher
Kahl Matthias
Kolb Andreas
Lopez Paredes Alvaro
Lähner Zorah
Möller Michael
Nelles Oliver
Nies Holger
Seeger Thomas
Wong Tak Ming
Publication venue: Zentrum für Entwicklungsländerforschung und Wissenstransfer (ZEW)
Publication date: 01/01/2022
Field of study

The ATHENA European University is an alliance of nine Higher Education Institutions with the mission of fostering excellence in research and innovation by facilitating international cooperation. The ATHENA acronym stands for Advanced Technologies in Higher Education Alliance. The partner institutions are from France, Germany, Greece, Italy, Lithuania, Portugal, and Slovenia: the University of Orléans, the University of Siegen, the Hellenic Mediterranean University, the Niccolò Cusano University, the Vilnius Gediminas Technical University, the Polytechnic Institute of Porto, and the University of Maribor. In 2022 institutions from Poland and Spain joined the alliance: the Maria Curie-Skłodowska University and the University of Vigo. This research book presents a selection of the ATHENA university partners' research activities. It incorporates peer-reviewed original articles, reprints and student contributions. The ATHENA Research Book provides a platform that promotes joint and interdisciplinary research projects of both advanced and early-career researchers

Publikations- und Dokumentenserver der Universitätsbibliothek Siegen

Data for "Characterization of Temperature Distributions in a Swirled Oxy-fuel Coal Combustor using Tomographic Absorption Spectroscopy with Fluctuation Modelling"

Author: Böhm Benjamin
Dreizler Andreas
Emmert Johannes
Evaggelos Sidiropoulos
Hölzer Jonas Immanuel
Meißner Christian
Schneider Henrik
Seeger Thomas
Wagner Steven
Publication venue
Publication date: 01/01/2020
Field of study

Tomographic temperature measurement on water vapor absorption in a pulverized solid fuel combuster under Oxy-fuel conditions The swirled Oxy-fuel combustor studied here is described in [1,2]. For details on the measurement method please refer to the publication linked in an updated version of this dataset or contact the authors. The provided CSV-files contain measurement results in cylinder coordinates of the burner. The uncertainty values describe standard deviations calculated from a nonlinear uncertainty propagation of the spectroscopic regression. [1] L. G. Becker, H. Kosaka, B. B¨ohm, S. Doost, R. Knappstein, M. Habermehl, R. Kneer, J. Janicka, A. Dreizler, Experimental investigation of flame stabilization inside the quarl of an oxyfuel swirl burner, Fuel 201 (2017) 124{135. doi:10.1016/j.fuel.2016.09.002. [2] L. G. Becker, T. von Langenthal, S. Pielsticker, B. B¨ohm, R. Kneer, A. Dreizler, Experimental investigation of particle-laden flows in an oxycoal combustion chamber for non-reacting conditions, Fuel 235 (2019) 753{762. doi:10.1016/j.fuel.2018.08.076

TUdatalib Repository (TU Darmstadt)