Vermiculite modification increases carbon retention and stability of rice straw biochar at different carbonization temperatures
文献类型: 外文期刊
作者: Liu, Yuxue 1 ; Gao, Chengxiang 1 ; Wang, Yuying 1 ; He, Lili 1 ; Lu, Haohao 1 ; Yang, Shengmao 1 ;
作者机构: 1.Zhejiang Acad Agr Sci, Inst Environm Resource Soil & Fertilizer, 298 Desheng Middle Rd, Hangzhou 310021, Peoples R China
2.Engn Res Ctr Biochar Zhejiang Prov, Hangzhou 10021, Peoples R China
3.Northwest Agr & Forestry Univ, Inst Resource & Environm, Yangling 712100, Shanxi, Peoples R China
关键词: Biochar; Stability; Mineral modification; Vermiculite; Carbon sequestration
期刊名称:JOURNAL OF CLEANER PRODUCTION ( 影响因子:9.297; 五年影响因子:9.444 )
ISSN: 0959-6526
年卷期: 2020 年 254 卷
页码:
收录情况: SCI
摘要: Biochar is considered a promising material for sequestering CO2 from the atmosphere, thus helping to alleviate climate change when returned to the soil. Biochar stability is the most decisive factor determining its C sequestration potential. Mineral modification may improve biochar characteristics, but systematic research on the effect of mineral modification on the C retention and stability of biochar and the associated mechanisms is limited. Therefore, in this study, rice straw was used to produce biochar at various temperatures (300, 400, 500, 600, and 700 degrees C), with vermiculite as a modified mineral material. Several methods including thermogravimetric analysis, Fourier transform infrared (FTIR) spectroscopy, X-ray photoelectron spectroscopy (XPS), and nuclear magnetic resonance (NMR) spectroscopy were used to evaluate the effect of vermiculite modification and carbonization temperature on biochar stability. Biochar yield and C retention ratio decreased with increasing temperatures but increased by 13.5-38.8% and 5.2-22.1%, respectively, after vermiculite modification. The ratios of C thermal weight loss, atomic H/C, and C oxidation loss in the biochar were reduced with increasing carbonization temperature, indicating improved thermal, aromatization, and chemical oxidation stability. A trade-off that did not compromise C sequestration potential was optimized at 700 and 600 degrees C for the unmodified and modified biochar, respectively. Furthermore, the total mineral content of the biochar, particularly Fe, Al, Mg, and Si, were increased by vermiculite modification. FTIR results showed that chemical bonds, such as SieOeC and FeeO, were formed or enhanced on the biochar surface after vermiculite modification. This was further certified by the XPS survey spectra. NMR results indicated that biochar stability was enhanced by increasing the aromatization rate during carbonization, that is, by the conversion of C from alkyl and carbonyl C to aromatic C. This study provides a basis for research into and the development of functional biochar and its application in C sequestration. (C) 2020 Elsevier Ltd. All rights reserved.
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