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Volume 28, Issue 4
3 April 2018
International Journal of Numerical Methods for Heat & Fluid Flow Cover Image for Volume 28, Issue 4
Research Article| April 03 2018

Modeling of coal combustion in the CFB by the EDC model with the global reaction mechanism Available to Purchase

Zhizhong Kang;
Zhizhong Kang
School of Energy Power and Mechanical Engineering,
North China Electric Power University
, Beijing,
China
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Shixing Ding;
Shixing Ding
School of Energy Power and Mechanical Engineering,
North China Electric Power University
, Beijing,
China
Shixing Ding can be contacted at: 405724645@qq.com
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Zhi-ang Shuai;
Zhi-ang Shuai
Sichuan Electric Power Design and Consulting Co. Ltd., Chengdu,
China
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Baomin Sun
Baomin Sun
School of Energy Power and Mechanical Engineering,
North China Electric Power University
, Beijing,
China
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Author & Article Information
Shixing Ding can be contacted at: 405724645@qq.com
Publisher: Emerald Publishing
Received: November 25 2016
Revision Received: March 08 2017
Revision Received: June 02 2017
Revision Received: September 01 2017
Accepted: September 13 2017
Online ISSN: 1758-6585
Print ISSN: 0961-5539
© Emerald Publishing Limited
2018
Emerald Publishing Limited
Licensed re-use rights only
International Journal of Numerical Methods for Heat & Fluid Flow (2018) 28 (4): 963–981.
https://doi.org/10.1108/HFF-11-2016-0467
Article history
Received:
November 25 2016
Revision Received:
March 08 2017
Revision Received:
June 02 2017
Revision Received:
September 01 2017
Accepted:
September 13 2017
Purpose

This paper aims to shows the ability of the EDC model with a global reaction mechanism to describe reactions in the Eulerian simulation of a circulating fluidized bed (CFB).

Design/methodology/approach

The eddy dissipation concept (EDC) model is embedded in an Eulerian-Eulerian approach to simulate homogeneous reactions.

Findings

EDC_G is better than ED_FR in describing chemical reactions. The reaction of CH4 with O2 is faster than that of CO with O2, and NH3 is more liable to be converted than HCN. The combustion rate is higher than the Boudouard reaction rate of coal particles.N2O is mainly reduced by carbon, and NO is mainly converted by carbon into N2 and CO2.

Originality/value

The EDC model with a global reaction mechanism is embedded in a multi-fluid Eulerian approach to simulate the homogeneous reactions in the coal combustion in a CFB, including combustion of volatile gases, desulfurizing reactions and NOx reactions.

Keywords:
Combustion, Circulating fluidized bed, Eddy dissipation concept, Multi-fluid Eulerian
© Emerald Publishing Limited
2018
Emerald Publishing Limited
Licensed re-use rights only
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