期刊
ENERGY
卷 218, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2020.119398
关键词
Co-pyrolysis; Microwave; Textile dying sludge; Red wood waste
资金
- Ministry of Science and Technology of the People's Republic of China [2017YFE0124800]
The co-pyrolysis of TDS and RWW has been proven to be an effective method for handling textile dyeing sludge and creating higher value products, while reducing environmental pollution. With increasing temperature and RWW ratio, changes in product distribution and properties were observed, including an increase in gas yield and the generation of nitrogen-containing compounds and N-heterocyclics.
The eco-friendly disposal of textile dyeing sludge (TDS) has become a worldwide environmental issue due to their complexity and toxicity. In this study, co-pyrolysis of TDS and red wood waste (RWW) in a continuously operated auger reactor under microwave irradiation was investigated, which was more environmentally friendly and created higher value added products. Effects of pyrolysis temperature and RWW ratio were studied to evaluate product distribution and properties. Increase of temperature and RWW ratio resulted in decrease in char yield and increase in gas yield. The contents of CO, CH4, and H-2 increased significantly with RWW ratio increased at 650 degrees C. The content of pyridines, amines, and nitriles enhanced sharply with increasing temperature from 450 to 750 degrees C. Co-pyrolysis promoted the Maillard reaction and cracking of nitrogen-containing pigments, forming large quantities of N-heterocyclics in bio-oil. Sludge char obtained by pyrolysis of TDS at 650 degrees C had a greater sulfur retention ability than chars from co-pyrolysis. The highest methylene blue number (372.25 mg/g) and iodine adsorption value (332.42 mg/g) were achieved from TDS and biochar (750 degrees C, 30 wt% RWW ratio), respectively. Fe(III) in Fe2O3 was reduced to Fe(II) in Fe3O4 and further partially reduced to metallic Fe in biochar. (C) 2020 Elsevier Ltd. All rights reserved.
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