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Research progress on direct-fired biomass power generation in coal-fired units:Gas-solid two-phase dynamic model for large non-spherical biomass particles

2023 No. 09
583
278
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Authors:
WANG Jingliang
FANG Qingyan
YIN Chungen
MA Lun
MA Qilei
QIAO Yu
ZHANG Cheng
CHEN Gang
Unit:
State Key Laboratory of Coal Combustion,Huazhong University of Science and Technology
AAU Energy Aalborg University
East China Electric Power Test & Research Institute,China Datang Corporation Science and TechnologyGeneral Research Institute Co.,Ltd.
Abstract:

Co-firing biomass power generation in power plants is one of the feasible and realistic ways to make full use of biomass energyresources with near-zero carbon emissions in the context of dual carbon targets. Nowadyas, there are few demonstration projects of co-firing biomass power generation in power plants. The technical maturity needs to be improved. There are problems such as fuel crushing andtransportation, combustion organization, and boiler heating surface corrosion. Computational Fluid Dynamics (CFD) provides an effectiveresearch method for the optimal design and operation of energy and power plants. The research status of the gas-solid two-phase dynamic model of biomass particles was mainly reviewed. The existing problems were summarized, and the research suggestions were proposed.Biomass particles are large and exhibit irregular non-spherical. In the absence of mature technology and relevant experience in China, theaccurate simulation of the motion trajectory of irregular and large for non-spherical biomass particles is the basis and key to accurately simulate the combustion process, which is also a difficulty in this field. However, there is no general model of gas-solid two-phase dynamicsfor large non-spherical biomass particles under dilute phase flow conditions. It is suggested to strengthen the basic theoretical research onthe gas-solid two-phase dynamic model for efficient combustion of biomass particles. A new correlation of drag-lift coefficient and moment coefficient of various typical non-spherical particles is obtained by particle-resolved direct numerical simulation(DNS), which couples the translational and rotational motion of non-spherical particles. A general gas-solid two-phase dynamic model for large non-spherical biomass particles is constructed. After further experimental verification, it is applied to multiphase flow simulation in industry, whichprovides support for revealing the particle transport and thermal conversion characteristics in the coupling process of co-firing biomasspower generation in power plants.

Keywords:
coal-fired unitd
co-firing biomass
non-spherical particles
gas-solid two-phase dynamics
Citation format:
汪靖良(1996—),男,安徽合肥人,博士研究生。E-mail:jingliangwang1996@163.com
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Citation format:
WANG Jingliang,FANG Qingyan,YIN Chungen,et al.Research progress on direct-fired biomass power generation in coal-fired units:Gas-solid two-phase dynamic model for large non-spherical biomass particles[ J].Clean Coal Technology,2023,29(9):14-23.

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

  • Publication Frequencies

    Monthly

  • ISSN

    1006-6772

  • CN

    11-3676/TD

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  • CSTPCD
  • RCCSE(A+)
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  • Scopus

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