期刊
WASTE MANAGEMENT
卷 120, 期 -, 页码 25-32出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.wasman.2020.11.018
关键词
Sludge; Pyrolysis; Model-free method; Kinetics; Heavy metal
资金
- National Natural Science Foundation of China (NSFC) [50876030]
- Henan Provincial Science and Technology Research Project, China [192102310472]
- Key Scientific Research Project of Universities in Henan Province, China [20B480001]
- Youth Backbone Teacher Project of Henan University of Urban Construction [YCJQNGGJS201905]
The study found that sludge pyrolysis is a multi-step process, with the activation energy increasing with the pyrolysis conversion rate. The thermal volatilities of heavy metals at 850 degrees Celsius followed the sequence Cu < Cr < Ni < Mn < Pb < As < Zn < Cd = Hg.
A comprehensive study was conducted to investigate the pyrolysis characteristics of municipal sludge, and the activation energy of sludge pyrolysis was determined using the Model-free method. The detailed migration characteristics of heavy metals in the pyrolysis products were also investigated at different pyrolysis temperatures (250-850 degrees C). The results demonstrate that sludge pyrolysis is a multi-step process; the activation energy of pyrolysis increased with the pyrolysis conversion rate, and the average activation energy was calculated as 79.59 kJ mol(-1). As the pyrolysis temperature increased, the char yield decreased, the tar yield increased then decreased, and the gas yield increased. At 850 degrees C, the thermal volatilities of heavy metals followed the sequence Cu < Cr < Ni < Mn < Pb < As < Zn < Cd = Hg. In addition, Cu, Cr, and Ni were seldom involved in migration during pyrolysis while As, Cd, and Hg readily migrated even at low pyrolysis temperatures. The results provide a theoretical basis for sludge pyrolysis technologies and heavy metals migration control. (C) 2020 Elsevier Ltd. All rights reserved.
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