Characterization of Biochars Produced from Cornstovers for Soil Amendment

生物炭 热解 烧焦 热解炭 修正案 化学 阳离子交换容量 碳纤维 解吸 吸附 生物量(生态学) 环境化学 土壤水分 有机化学 材料科学 土壤科学 环境科学 复合数 地质学 复合材料 海洋学 法学 政治学
作者
James W. Lee,Michelle K. Kidder,Barbara R. Evans,Sokwon Paik,A. C. Buchanan,Charles T. Garten,Robert C. Brown
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:44 (20): 7970-7974 被引量:453
标识
DOI:10.1021/es101337x
摘要

Through cation exchange capacity assay, nitrogen adsorption-desorption surface area measurements, scanning electron microscopic imaging, infrared spectra and elemental analyses, we characterized biochar materials produced from cornstover under two different pyrolysis conditions, fast pyrolysis at 450 °C and gasification at 700 °C. Our experimental results showed that the cation exchange capacity (CEC) of the fast-pyrolytic char is about twice as high as that of the gasification char as well as that of a standard soil sample. The CEC values correlate well with the increase in the ratios of the oxygen atoms to the carbon atoms (O:C ratios) in the biochar materials. The higher O:C ratio was consistent with the presence of more hydroxyl, carboxylate, and carbonyl groups in the fast pyrolysis char. These results show how control of biomass pyrolysis conditions can improve biochar properties for soil amendment and carbon sequestration. Since the CEC of the fast-pyrolytic cornstover char can be about double that of a standard soil sample, this type of biochar products would be suitable for improvement of soil properties such as CEC, and at the same time, can serve as a carbon sequestration agent.
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