A Scientific Basis for the Development of the Next Generation of Biomass Burners

Joakim Myung Johansen; Peter Arendt Jensen; Sønnik Clausen; Alexander Fateev; Karsten Lindorff Nielsen; J.  Thomsen; Rasmus Østergaard Gadsbøll; R. Mitchell; R. Weber; M. Mancini; M. Tonell; J. Andersen; L. Myllerup; Peter Glarborg

A Scientific Basis for the Development of the Next Generation of Biomass Burners

Joakim Myung Johansen, Peter Arendt Jensen, Sønnik Clausen, Alexander Fateev, Karsten Lindorff Nielsen, J. Thomsen, Rasmus Østergaard Gadsbøll, R. Mitchell, R. Weber, M. Mancini, M. Tonell, J. Andersen, L. Myllerup, Peter Glarborg

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Abstract

The kinetics derived from the classical engineering study are used to simulate the devolatilization and char burn-out phases in the CFD model. Likewise, the study on morphology development will be used to estimate suitable sub-routines, e.g. effective drag coeffcients. The full-scale campaign is used to evaluate the results of the generic CFD models. As the qualitative trends can be reproduced, the CFD models can be used to extend the experimental matrix and facilitate process optimization.

Original language	English
Publication date	2015
Number of pages	1
Publication status	Published - 2015
Event	DTU International Energy Conference 2013: Sustainable energy for green economic growth - Technical University of Denmark, Lyngby, Denmark Duration: 10 Sept 2013 → 12 Sept 2013

Conference

Conference	DTU International Energy Conference 2013
Location	Technical University of Denmark
Country/Territory	Denmark
City	Lyngby
Period	10/09/2013 → 12/09/2013

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Johansen, J. M., Jensen, P. A., Clausen, S., Fateev, A., Nielsen, K. L., Thomsen, J., Gadsbøll, R. Ø., Mitchell, R., Weber, R., Mancini, M., Tonell, M., Andersen, J., Myllerup, L., & Glarborg, P. (2015). A Scientific Basis for the Development of the Next Generation of Biomass Burners. Poster session presented at DTU International Energy Conference 2013, Lyngby, Denmark.

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abstract = "The kinetics derived from the classical engineering study are used to simulate the devolatilization and char burn-out phases in the CFD model. Likewise, the study on morphology development will be used to estimate suitable sub-routines, e.g. effective drag coeffcients. The full-scale campaign is used to evaluate the results of the generic CFD models. As the qualitative trends can be reproduced, the CFD models can be used to extend the experimental matrix and facilitate process optimization.",

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T1 - A Scientific Basis for the Development of the Next Generation of Biomass Burners

AU - Johansen, Joakim Myung

AU - Jensen, Peter Arendt

AU - Clausen, Sønnik

AU - Fateev, Alexander

AU - Nielsen, Karsten Lindorff

AU - Thomsen, J.

AU - Gadsbøll, Rasmus Østergaard

AU - Mitchell, R.

AU - Weber, R.

AU - Mancini, M.

AU - Tonell, M.

AU - Andersen, J.

AU - Myllerup, L.

AU - Glarborg, Peter

PY - 2015

Y1 - 2015

N2 - The kinetics derived from the classical engineering study are used to simulate the devolatilization and char burn-out phases in the CFD model. Likewise, the study on morphology development will be used to estimate suitable sub-routines, e.g. effective drag coeffcients. The full-scale campaign is used to evaluate the results of the generic CFD models. As the qualitative trends can be reproduced, the CFD models can be used to extend the experimental matrix and facilitate process optimization.

AB - The kinetics derived from the classical engineering study are used to simulate the devolatilization and char burn-out phases in the CFD model. Likewise, the study on morphology development will be used to estimate suitable sub-routines, e.g. effective drag coeffcients. The full-scale campaign is used to evaluate the results of the generic CFD models. As the qualitative trends can be reproduced, the CFD models can be used to extend the experimental matrix and facilitate process optimization.

M3 - Poster

T2 - DTU International Energy Conference 2013

Y2 - 10 September 2013 through 12 September 2013

ER -

A Scientific Basis for the Development of the Next Generation of Biomass Burners

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