Experiments and modelling of NOx precursors release (NH3 and HCN) in fixed-bed biomass combustion conditions

Andrés Anca-Couce; Peter Sommersacher; Nikola Evic; Ramin Mehrabian; Robert Scharler

doi:10.1016/j.fuel.2018.03.003

Experiments and modelling of NO_x precursors release (NH₃ and HCN) in fixed-bed biomass combustion conditions

Andrés Anca-Couce^*, Peter Sommersacher, Nikola Evic, Ramin Mehrabian, Robert Scharler

^*Corresponding author for this work

Institute of Thermal Engineering (3070)

Research output: Contribution to journal › Article › peer-review

Abstract

There is a need to reduce NO_x emissions, which can only be achieved through a detailed understanding of the mechanisms for their formation and reduction. In this work the release of the NO_x precursors, NH₃ and HCN, for different fuels is experimentally analysed and modelled in typical fixed-bed combustion conditions. It is shown that NH₃ and HCN are released during the main devolatilization phase and the NH₃/HCN ratio increases for fuels with a higher nitrogen content. A simplified two-steps model for their release is presented. The model can predict with a reasonable accuracy the release for fuels with a low nitrogen content, however deviations are present for fuels with a high nitrogen content, which probably arise due to a reduction of NH₃ and HCN taking place already in the bed.

Original language	English
Pages (from-to)	529-537
Number of pages	9
Journal	Fuel
Volume	222
DOIs	https://doi.org/10.1016/j.fuel.2018.03.003
Publication status	Published - 15 Jun 2018

Keywords

Biomass
Combustion
Lab-scale reactor
Model
NO precursor
Pyrolysis

ASJC Scopus subject areas

Chemical Engineering(all)
Fuel Technology
Energy Engineering and Power Technology
Organic Chemistry

Access to Document

10.1016/j.fuel.2018.03.003

Cite this

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title = "Experiments and modelling of NOx precursors release (NH3 and HCN) in fixed-bed biomass combustion conditions",

abstract = "There is a need to reduce NOx emissions, which can only be achieved through a detailed understanding of the mechanisms for their formation and reduction. In this work the release of the NOx precursors, NH3 and HCN, for different fuels is experimentally analysed and modelled in typical fixed-bed combustion conditions. It is shown that NH3 and HCN are released during the main devolatilization phase and the NH3/HCN ratio increases for fuels with a higher nitrogen content. A simplified two-steps model for their release is presented. The model can predict with a reasonable accuracy the release for fuels with a low nitrogen content, however deviations are present for fuels with a high nitrogen content, which probably arise due to a reduction of NH3 and HCN taking place already in the bed.",

keywords = "Biomass, Combustion, Lab-scale reactor, Model, NO precursor, Pyrolysis",

author = "Andr{\'e}s Anca-Couce and Peter Sommersacher and Nikola Evic and Ramin Mehrabian and Robert Scharler",

year = "2018",

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AU - Anca-Couce, Andrés

AU - Sommersacher, Peter

AU - Evic, Nikola

AU - Mehrabian, Ramin

AU - Scharler, Robert

PY - 2018/6/15

Y1 - 2018/6/15

N2 - There is a need to reduce NOx emissions, which can only be achieved through a detailed understanding of the mechanisms for their formation and reduction. In this work the release of the NOx precursors, NH3 and HCN, for different fuels is experimentally analysed and modelled in typical fixed-bed combustion conditions. It is shown that NH3 and HCN are released during the main devolatilization phase and the NH3/HCN ratio increases for fuels with a higher nitrogen content. A simplified two-steps model for their release is presented. The model can predict with a reasonable accuracy the release for fuels with a low nitrogen content, however deviations are present for fuels with a high nitrogen content, which probably arise due to a reduction of NH3 and HCN taking place already in the bed.

AB - There is a need to reduce NOx emissions, which can only be achieved through a detailed understanding of the mechanisms for their formation and reduction. In this work the release of the NOx precursors, NH3 and HCN, for different fuels is experimentally analysed and modelled in typical fixed-bed combustion conditions. It is shown that NH3 and HCN are released during the main devolatilization phase and the NH3/HCN ratio increases for fuels with a higher nitrogen content. A simplified two-steps model for their release is presented. The model can predict with a reasonable accuracy the release for fuels with a low nitrogen content, however deviations are present for fuels with a high nitrogen content, which probably arise due to a reduction of NH3 and HCN taking place already in the bed.

KW - Biomass

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KW - Lab-scale reactor

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KW - NO precursor

KW - Pyrolysis

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