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南京师范大学学报（工程技术版）[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2017年04期

Page:

53-

Research Field:

能源与机械工程

Publishing date:

Info

Title:

Investigation on Reaction Rate of Bituminous Coal-Char Particlesin O₂/CO₂ Atmosphere in a Fluidized Bed

Author(s):

Wang Wenkang¹; Bu Changsheng¹; Xiong Jinqin¹; Wang Xinye¹; Zhang Jubing¹; Piao Guilin¹; Zhang Xiaoyong²

1.School of Energy and Mechanical Engineering,Nanjing Normal University,Nanjing 210042,China)(2.China Datang Corporation Science and Technology Research Institute,Beijing 102206,China

Keywords:

fluidized Bed; O₂/CO₂ combustion; bituminous coal; combustion; gasification

PACS:

TQ534.2

DOI:

10.3969/j.issn.1672-1292.2017.04.009

Abstract:

Oxy-fuel fluidized bed(FB)combustion is one of the promising technologies achieving the clean utilization of coal and nearly zero emission of CO₂ from coal fired power plants. To obtain the oxy-fuel combustion characteristics of coal particles in the industry FB conditions,experimental study of combustion of bituminous coal particles is conducted in a bench-scale FB in O₂/CO₂ and O₂/N₂ atmospheres through continuously measuring the concentrations of O₂ and CO in the exit gas at the bed temperatures of 800～900 ℃,the O₂ concentrations of 4%～10% and the coal particle sizes of 2-8 mm. Results indicate that the combustion rate of bituminous coal-char particle increases with the increase of bed temperature,O₂ concentration and the decrease of the coal-char size in O₂/CO₂ atmosphere. Oxidation of coal-char is controlled by the diffusion of O₂,whereas gasification of coal-char is limited by the reaction kinetics. Compared with coal-char combustion in the O₂/N₂ atmosphere,the decreased diffusivity of O₂ in CO₂ is the main reason for the changed reaction rate of coal-char particle in O₂/CO₂ atmosphere at a low bed temperature. However,at a high bed temperature,in spite of the low diffusion rate of O₂,the effect of gasification on the coal-char reaction could not be ignored as consequence of the increased gasification rate.

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Last Update: 2017-12-30