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Study on combustion and emission characteristics of microalgae and its extraction residue with TG-MS

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  • Fang, Peiwen
  • Gong, Zhiqiang
  • Wang, Zhenbo
  • Wang, Zhentong
  • Meng, Fanzhi

Abstract

Experimental study on combustion and emission characteristics of microalgae (M) and the extraction residue (MR) was carried out on a coupled thermogravimetric and mass spectrometer system (TG-MS). TG results showed that combustion process of M and MR can be divided into three stages, including water volatilization, the release and combustion of proteins, carbohydrates and lipids, and minerals decomposition. As the heating rate increased, thermal hysteresis was occurred during combustion of M and MR, especially for M. Friedman method, FWO method and Starink method were used to calculate the apparent activation energy during combustion of M and MR. As the conversion rates increased, the apparent activation energy of M and MR showed different trends. The average apparent activation energy of M and MR in the main combustion stage was 183.41 kJ mol−1 and 144.41 kJ mol−1, respectively. MS results demonstrated that the release of nitrogen-containing compounds of M was more than MR while the release of sulfur-containing compounds was similar during M and MR combustion.

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  • Fang, Peiwen & Gong, Zhiqiang & Wang, Zhenbo & Wang, Zhentong & Meng, Fanzhi, 2019. "Study on combustion and emission characteristics of microalgae and its extraction residue with TG-MS," Renewable Energy, Elsevier, vol. 140(C), pages 884-894.
    • Handle: RePEc:eee:renene:v:140:y:2019:i:c:p:884-894
    DOI: 10.1016/j.renene.2019.03.114
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    References listed on IDEAS

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    Cited by:

    1. Bong, Jang Tyng & Loy, Adrian Chun Minh & Chin, Bridgid Lai Fui & Lam, Man Kee & Tang, Daniel Kuok Ho & Lim, Huei Yeong & Chai, Yee Ho & Yusup, Suzana, 2020. "Artificial neural network approach for co-pyrolysis of Chlorella vulgaris and peanut shell binary mixtures using microalgae ash catalyst," Energy, Elsevier, vol. 207(C).
    2. Guo, Qian & Tang, Yibo, 2022. "Laboratory investigation of the spontaneous combustion characteristics and mechanisms of typical vegetable oils," Energy, Elsevier, vol. 241(C).
    3. Gong, Zhiqiang & Fang, Peiwen & Wang, Zhenbo & Li, Xiaoyu & Wang, Zhentong & Meng, Fanzhi, 2020. "Pyrolysis characteristics and products distribution of haematococcus pluvialis microalgae and its extraction residue," Renewable Energy, Elsevier, vol. 146(C), pages 2134-2141.
    4. Chen, Zhiyun & Liu, Jingyong & Chen, Huashan & Ding, Ziyi & Tang, Xiaojie & Evrendilek, Fatih, 2022. "Oxy-fuel and air atmosphere combustions of Chinese medicine residues: Performances, mechanisms, flue gas emission, and ash properties," Renewable Energy, Elsevier, vol. 182(C), pages 102-118.
    5. Kong, Wenwen & Shen, Boxiong & Ma, Jiao & Kong, Jia & Feng, Shuo & Wang, Zhuozhi & Xiong, Lifu, 2022. "Pyrolysis of Spirulina platensis, Tetradesmus obliquus and Chlorella vulgaris by TG-FTIR and Py-GC/MS: Kinetic analysis and pyrolysis behaviour," Energy, Elsevier, vol. 244(PB).
    6. Adnan, Muflih A. & Xiong, Qingang & Muraza, Oki & Hossain, Mohammad M., 2020. "Gasification of wet microalgae to produce H2-rich syngas and electricity: A thermodynamic study considering exergy analysis," Renewable Energy, Elsevier, vol. 147(P1), pages 2195-2205.
    7. Wang, Zhentong & Gong, Zhiqiang & Wang, Wei & Zhang, Zhe, 2020. "Study on combustion characteristics and the migration of heavy metals during the co-combustion of oil sludge char and microalgae residue," Renewable Energy, Elsevier, vol. 151(C), pages 648-658.

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