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Dynamic and kinetic studies on the oxy-coal combustion using multi-parameter high-speed diagnostics

Author

Listed:
  • Zhu, Wenkun
  • Li, Xiaohui
  • Peng, Jiangbo
  • Sun, Rui
  • Wang, Zhuozhi
  • Zhang, Lei
  • Cao, Zhen
  • Yu, Xin

Abstract

Non-intrusive measurement of dynamic and kinetic parameters during oxy-coal combustion has been carried out in an enclosed downward laminar flow reactor. High-speed OH-PLIF, CH* chemiluminescence, and pyrometer were used to determine the luminescence species, particle velocity, and particle temperature. A two-step model was established to predict the release of coal combustible based on the Arrhenius expression. The experimental data from traditional coal char analysis methods verified the optical kinetic model. Experiments showed that homogeneous ignition first occurred and dominated the upstream volatile combustion. The heterogeneous reaction was activated upstream due to volatile oxidization and became dominant downstream. The coal combustion formed an overlapping region between volatile and char oxidations. This region played a critical role in enhancing flame stability. The duration of the overlapping region was smaller in oxy-fuel combustion than in air-alike combustion due to the higher reaction rate and lower heat and mass diffusion. A temperature-dependent kinetic model was found to obey a two-step first-order Arrhenius expression with two pre-exponential factors (103.59±0.22 and 105.81±0.31 s−1) and two activation energies (173.1 and 278.0 kJ/mol) in air-alike combustion, and two pre-exponential factors (105.02±0.47 and 106.37±0.24 s−1) and two activation energies (217.0 and 291.1 kJ/mol) in oxy-fuel combustion. The kinetic predictions agree well with the experimental results of the combustible release in the corresponding tests.

Suggested Citation

  • Zhu, Wenkun & Li, Xiaohui & Peng, Jiangbo & Sun, Rui & Wang, Zhuozhi & Zhang, Lei & Cao, Zhen & Yu, Xin, 2022. "Dynamic and kinetic studies on the oxy-coal combustion using multi-parameter high-speed diagnostics," Applied Energy, Elsevier, vol. 327(C).
  • Handle: RePEc:eee:appene:v:327:y:2022:i:c:s0306261922013228
    DOI: 10.1016/j.apenergy.2022.120065
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    References listed on IDEAS

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    1. Li, Tao & Schiemann, Martin & Köser, Jan & Dreizler, Andreas & Böhm, Benjamin, 2021. "Experimental investigations of single particle and particle group combustion in a laminar flow reactor using simultaneous volumetric OH-LIF imaging and diffuse backlight-illumination," Renewable and Sustainable Energy Reviews, Elsevier, vol. 136(C).
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    Cited by:

    1. Song, Yawei & Su, Sheng & Liu, Yushuai & Zhao, Zheng & Xu, Kai & Xu, Jun & Jiang, Long & Wang, Yi & Hu, Song & Xiang, Jun, 2024. "Characteristics of OH formation during single coal particle ignition and volatile combustion in O2/N2 and O2/CO2 atmospheres," Energy, Elsevier, vol. 288(C).
    2. Yuan, Mengfan & Zhu, Wenkun & Wang, Zhuozhi & Guo, Yuting & Li, Gaoyang & Chen, Yongxin & Peng, Jiangbo & Sun, Rui, 2024. "Diagnostic investigation of devolatilization, ignition, and flame fluctuation during laminar oxy-coal combustion," Energy, Elsevier, vol. 289(C).
    3. Jiang, Bingyou & Yu, Chang-Fei & Yuan, Liang & Lu, Kunlun & Tao, Wenhan & Lin, Hanyi & Zhou, Yu, 2023. "Investigation on oxidative pyrolysis characteristics of bituminous coal through thermal analysis and density functional theory," Applied Energy, Elsevier, vol. 349(C).
    4. Wang, Chaowei & Wang, Chang'an & Luo, Maoyun & Zhao, Lin & Wang, Pengqian & Hou, Yujie & Zhao, Pengbo & Che, Defu, 2023. "Co-gasification behaviors of various coal-based solid fuels blends at initial stage of oxy-fuel Co-combustion," Energy, Elsevier, vol. 271(C).
    5. Zhu, Wenkun & Li, Xiaohui & Sun, Rui & Yan, Yonghong & Liu, Jing & Wang, Zhuozhi & Yu, Xing, 2023. "Microstructural evolution of coal to char after pyrolysis using laser-induced breakdown spectroscopy and Raman spectroscopy," Energy, Elsevier, vol. 267(C).

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