期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 402, 期 -, 页码 -出版社
ELSEVIER
关键词
Antibiotic mycelial dreg; Pyrolysis; Product characteristics; Nitrogen and phosphorus distribution; Antibiotic residue
资金
- National Key R&D Program of China [2018YFC1901300]
- Sino-Danish Center for Education and Research
This study comprehensively investigated the pyrolysis of antibiotic mycelial dreg (AMD), focusing on the impact of pyrolysis temperature on product yields and characteristics, as well as the release and distribution of nitrogen and phosphorus, and residue of antibiotics. The results showed that a low pyrolysis temperature is recommended for efficient recycling of nitrogen and phosphorus during the treatment of AMD.
The disposal and utilization of antibiotic mycelial dreg (AMD), which has been identified as a hazardous waste in China, are a serious concern because of the residual antibiotic and huge annual output. Pyrolysis is a promising technology to treat AMD. However, the pyrolysis of AMD is not studied in an adequate degree, particularly no attention has been paid to the release and distribution of the phosphorus in AMD during pyrolysis. Therefore, the present work studied the pyrolysis of AMD more comprehensively. The influence of pyrolysis temperature on product yields and characteristics, together with the release and distribution of nitrogen and phosphorus, and the antibiotic residue in products, were investigated. The results suggested that residual antibiotic was eliminated after pyrolysis. Nitrogen was mainly contained in the biochar and liquid products, while phosphorus was mainly retained in the biochar. Liquid products were characterized by abundant oxygen and nitrogen-containing compounds, while biochar was featured of both abundant nitrogen and inorganic phosphate groups. Pyrolysis temperature showed a significant effect on product yields and characteristics, and a low pyrolysis temperature is recommended considering the recycling of nitrogen and phosphorus. The disposal of AMD through pyrolysis conforms to the principles of AMD disposal.
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