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Coupling combustion technology of gas turbines flue gas and coal-fired boiler

2024 No. 07
603
101
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Authors:
LAI Jinping
CHEN Hui
ZHANG Wenzheng
LIU Xin
LI Chaobing
HE Lucan
GE Ming
Unit:
Guoneng Nanjing Electric Power Test & Research Limited
Yantai Longyuan Electric Power Technology Co.,Ltd.
Abstract:

and gas turbines flue gas was explored. Based on the basic theory of combustion, detailed calculations were conducted on the theoretical airvolume, flue gas volume, burner nozzle velocity and other parameters of coal - fired boiler combustion after mixing with gas turbineflue gas. A coupling combustion technology scheme of gas turbine flue gas and coal - fired boiler was proposed. The influence of fluegas coupling on the combustion characteristics of coal-fired boiler was analyzed using full-scale numerical simulation technology.The numerical simulation results indicate that after flue gas coupling,the tangential diameter increases. As the initial temperature of pulverized coal flow increases, the volatile releases earlier, and the pulverized coal ignites earlier,The temperature of the boiler furnace decreases, and the heat absorption of the water wall decreases. The NO emission at the furnace outlet increases from 222. 1 mg/ m to229.5 mg/ m, and the burnout rate decreases from 98.91% to 96.9%. Based on numerical simulation results, the energy consumption ofthe whole plant after flue gas coupling was analyzed, it can be concluded that although the coal consumption of boiler power generation increases by 2.0 g/ kWh,the waste heat utilization efficiency of gas turbine flue gas has increased from about 80% to about 93%, representing a reduction of 10.98 g/ kWh in the coal consumption of boiler power generation, so the energy consumption of the whole plant has decreased. The results indicate that coupling combustion technology of coal-fired boilers and gas turbines is feasible. After flue gas coupling,the gas turbine flue gas replaces most of the secondary air, significantly reducing the air flow through the air preheater, resulting in a significant decrease in the heat of the air preheater and a significant increase in the flue gas temperature. It is necessary to add a waste heatutilization device after the air preheater.

Keywords:
gas turbines flue gas
coal-fired boiler
coupling combustion
numerical simulation
energy consumption
Citation format:
赖金平(1988—),男,江西赣州人,工程师,硕士。E-mail:laijinping1988@163.com
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Citation format:
LAI Jinping,CHEN Hui,ZHANG Wenzheng,et al.Coupling combustion technology of gas turbines flue gas and coal-firedboiler[J].Clean Coal Technology,2024,30(7):120-126.

About Journal

  • Executive director

    China Coal Science and Industry Group Co., Ltd

  • Sponsored by

    Coal Science Research Institute Co., Ltd
    Coal Industry Clean Coal Engineering
    Technology Research Center

  • Editor in Chief

    XIE Qiang

  • Vice Editor-in-Chief

    YU Chang
    SHI Yixiang
    ZHAO Yongchun
    DUAN Linbo
    CAO Jingpei
    ZENG Jie

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