不同生物炭吸附乙草胺的特征及机理

王子莹; 邱梦怡; 杨妍; 孙可

文章摘要

王子莹,邱梦怡,杨妍,孙可.不同生物炭吸附乙草胺的特征及机理[J].农业环境科学学报,2016,35(1):93-100.

不同生物炭吸附乙草胺的特征及机理

Sorption of acetochlor by biochars derived from wood dust and swine manure at different pyrolytic temperatures

投稿时间：2015-07-24

DOI：10.11654/jaes.2016.01.013

中文关键词: 生物炭乙草胺吸附比表面积表面极性芳香碳

英文关键词: biochar acetochlor adsorption CO₂-surface area surface polarity aromatic C

基金项目:国家自然科学基金面上项目(41273106);国家自然基金创新团体项目(51421065)

作者	单位	E-mail
王子莹	北京师范大学环境学院水环境模拟国家重点实验室, 北京 100875
邱梦怡	北京师范大学环境学院水环境模拟国家重点实验室, 北京 100875
杨妍	北京师范大学环境学院水环境模拟国家重点实验室, 北京 100875
孙可	北京师范大学环境学院水环境模拟国家重点实验室, 北京 100875	sunke@bnu.edu.cn

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中文摘要:

研究了两种原材料(松树木屑和猪粪便)分别在7个温度条件下制备的14种生物炭对乙草胺的吸附,结果表明生物炭的理化性质随原料来源以及热解温度的不同会发生明显的变化。生物炭的总极性随着热解温度的升高而降低,同时芳香度和比表面积(CO₂-SA)显着增加,生物炭样品的表面有机碳(OC)含量高于总体OC含量;猪粪便来源的生物炭(SWBs)的灰分含量显着高于松树木屑来源的生物炭(WDBs),这可能是导致SWBs对乙草胺的吸附能力大于WDBs的原因。生物炭的表面极性[(O+N)/C]和吸附能力lgK_oc之间呈正相关关系,表明表面极性官能团的氢键作用可能是控制低温WDBs(热解温度< 450 ℃)吸附乙草胺的主要因素;而高温生物炭(热解温度≥ 450 ℃)的芳香度和lgK_oc之间呈显着的正相关关系,说明高温生物炭对吸附乙草胺主要受芳香碳组分的影响。此外,吸附参数(非线性因子n和lgK_oc)和OC标准化的比表面积(CO₂-SA/OC)之间的相关关系表明,孔填充效应可能是影响生物炭吸附乙草胺的主要作用之一。

英文摘要:

Raw material and pyrolytic temperature of biochar greatly influence its properties and thus pollutant adsorption. Fourteen biochars obtained from two raw material sources(wood dust and swine manure) at seven pyrolytic temperatures were used to investigate their adsorption of acetochlor. As pyrolytic temperature increased, the polarity of biochars decreased, while their aromaticity and CO₂-surface area(CO₂-SA) enhanced. The organic carbon(OC) concentrations on the biochar surface were generally higher than the corresponding bulk OC contents. Acetochlor had higher sorption capacity on swine manure biochars(SWBs) than on wood dust biochars(WDBs), mainly due to higher ash content of SWBs. At low pyrolytic temperatures(< 450 ℃), a positive correlation between biochar surface polarity[(O+N)/C] and the sorption affinity lgK_oc indicated that the surface polarity might dominate the sorption of acetochlor by WDBs through H-bonding interaction. At high pyrolytic temperatures(≥ 450 ℃), however, a positive correlation between the biochar aromaticity and lgK_oc suggested that aromatic C might control the sorption of acetochlor on biochars. Moreover, there were significant correlations between sorption coefficients(nonlinearity index n and lgK_oc) and OC normalized CO₂-SA(CO₂-SA/OC) of biochars, indicating that pore filling could be a factor affecting acetochlor adsorption on biochars.

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