4.7 Article

Investigation on cogasification and melting behavior of ash-rich biomass solid waste and Ca-rich petrochemical sludge pyrolysis residue in CO2 atmosphere

期刊

ENERGY
卷 239, 期 -, 页码 -

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2021.122121

关键词

Petrochemical sludge pyrolysis residue; Biomass solid waste; Cogasification and melting; Heavy metals; Vitreous product

资金

  1. Jiangsu Provincial Key Research and Development Program [BE2020115]
  2. Science and technology development project of Sinopec [419035-2]
  3. Postgraduate Research & Practice Innovation Program of Jiangsu Province [KYCX21_1126]
  4. startup foundation for introduced talents of Nanjing Tech University

向作者/读者索取更多资源

The study found that the process of gasification coupled with melting can effectively achieve the clean disposal of hazardous solid wastes. Specifically, increasing the content of Chinese medicine residue (CMR) can promote the gasification and melting characteristics, leading to efficient production of gasification residues and syngas. Additionally, the leachability of heavy metals inside the melting slags met the established criteria, suggesting the harmless disposal of hazardous wastes.
The process of gasification coupled with melting is an effective technology that can realize the clean disposal of hazardous solid wastes. In this study, the gasification and melting characteristics of Chinese medicine residue (CMR) and pyrolysis residue of petrochemical sludge (PRPS) blends were investigated. The gasification residues obtained at different gasification temperatures and with variant blend ratios (mass ratio of CMR to PRPS) were evaluated. Results demonstrated that the melting degree of gasification residues was proportional to gasification temperature, presenting as four distinct morphologies: the CaO-rich powder-like (1100 degrees C), the gehlenite-rich black-gray hemispherical (1200 degrees C), virid amorphous crystal (1300 degrees C), and transparent vitrified SiO2 (1400 degrees C). Especially, as increasing the content of CMR, the gasification and melting characteristic was promoted, which were related to energy resource attributes of CMR and supply of low-melting eutectic constituent elements. In addition, when the gasification temperature was 1300 degrees C, the mineral composition of gasification residues gradually transformed from Ca-Si-Al compounds into amorphous matter as increasing CMR content. Moreover, while the blend ratio further attained to 3:1, gasification residues appeared as distributed globules and syngas productivity was enhanced to 0.99 L/g. The leachability of heavy metals inside the melting slags could meet the established criteria, indicating the harmless disposal of hazardous wastes. (C) 2021 Elsevier Ltd. All rights reserved.

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