Feasibility analysis of clean utilization of kitchen waste oil and lignite by co-fermentation treatment

Hongyu Guo, Bo Song, Daping Xia*, Ze Deng, Linyong Chen, Yongjun Wang, Weizhong Zhao

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

In order to improve the efficiency of biomethane production through lignite anaerobic fermentation and perform the treatment and application of kitchen waste oil (KWO), different KWO to lignite ratios were used for combined anaerobic fermentation of biomethane. Biogas production characteristics, fermentation broth, and solid residue utilization properties of co-fermentation were analyzed using liquid fatty acid, thermogravimetric (TG), and combustion flue gas tests. The experimental results show that the co-anaerobic fermentation of KWO and lignite can improve the biogenic methane production, and the ratio of the two will also affect the biogenic methane production. Among them, the biogenic methane production by the co-anaerobic fermentation of 1.2 g KWO and 20 g of lignite is the largest, which is 377.86% higher than that by the anaerobic fermentation of single lignite. According to the three-dimensional fluorescence spectrum analysis, the fermentation substrate with the highest biogenic methane production contains more fulvic acid, tryptophan, lysine, phenol hydroxyl, ketone carbonyl, carbonyl, and other groups. In the change of fatty acid content before and after anaerobic fermentation, the content of palmitic acid, stearic acid, oleic acid, and other non-degradable fatty acids contained in KWO significantly decreased, and the volatile fatty acids significantly increased. After anaerobic fermentation, the volatilization analysis temperature, ignition point, and combustion temperature of residual coal are advanced, and the combustion is more stable. At the same time, the emission of combustion pollution gas of residual coal after fermentation is significantly reduced, which is conducive to the clean utilization of lignite.
Original languageEnglish
Article number136267
JournalJournal of Cleaner Production
Volume397
Number of pages10
ISSN0959-6526
DOIs
Publication statusPublished - 2023

Keywords

  • Lignite
  • Kitchen waste oil
  • Combined fermentation
  • Biogenic methane
  • Combustion performance
  • Pollutant emissions

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