期刊
SUSTAINABILITY
卷 13, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/su13116262
关键词
livestock manure; Biochar; physical activation; hydrogen sulfide removal
资金
- Innovative team project of Nanjing Institute of Environmental Sciences, Ministry of Ecology and Environment [GYZX210101]
- International Science & Technology Cooperation Program [2015DFA91390]
This study utilized livestock manure and coconut husks to prepare biochar, with cow dung biochar showing the best adsorption performance and further improvement after activation. Additionally, the research indicated that the H2S removal performance is closely related to the pore size distribution of the biochar.
As a potential adsorbent material, loose, porous livestock manure biochar provides a new approach to livestock manure resource utilization. In this study, coconut husks (CH) and livestock manure, i.e., cow dung (CD), pig manure (PM), and chicken manure (CM) were used as biomass precursors for preparation of biochar via high-temperature pyrolysis and CO2 activation. Characterization technologies, such as scanning electron microscopy, Fourier transform infrared spectroscopy, adsorption-desorption isotherms, and pore size distributions, were used to study the microscopic morphologies and physicochemical properties of unactivated and activated biochar materials. The results showed that CD biochar provides better adsorption performance (up to 29.81 mg H2S/g) than CM or PM biochar. After activation at 650 degrees for 1 h, the best adsorption performance was 38.23 mg H2S/g. For comparison, the CH biochar removal performance was 30.44 mg H2S/g. Its best performance was 38.73 mg H2S/g after 1 h of activation at 750 degrees C. Its best removal performance is equivalent to that of CH biochar activated at a temperature that is 100 degrees C higher. Further material characterization indicates that the H2S removal performance of livestock-manure-derived biochar is not entirely dependent on the specific surface area, but is closely related to the pore size distribution.
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