生物炭特性在其持水能力和结合水蒸发中的作用:定量重要性和控制机制

IF 13.1 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Biochar Pub Date : 2024-03-27 DOI:10.1007/s42773-024-00317-2
Huiying Zhang, Yue Cheng, Yinhua Zhong, Jinzhi Ni, Ran Wei, Weifeng Chen
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引用次数: 0

摘要

作为一种有效的土壤改良剂,生物炭的重要特性是高持水能力(WHC)和抑制水分蒸发。然而,生物炭特性在控制其自身持水量和约束水分蒸发方面的机制和重要性仍然鲜为人知。本研究将小麦秸秆和松树锯末生物炭分别在 300-750 ℃的氮气流、二氧化碳流和空气限制环境下进行热解,并对所产生的生物炭的一系列特性进行了表征,以探索其 WHC 和结合水蒸发的主要控制因素。结果表明,随着氢、氮、氧含量以及 H/C 和 (O + N)/C 等比例的增加,生物炭的加氢裂化时间也在增加,而生物炭结合水的蒸发量却在减少。随着碳含量、pH 值和比表面积(SSA)等其他研究因素的增加,生物炭的 WHC 也在降低,而生物炭结合水的蒸发量却在增加。这与生物炭中的氮主要以吡啶和吡咯的形式存在,而氧则以 C = O 和 C-O 键的形式存在有关。这些形式的氮和氧可以成为氢键的受体,与 H2O 分子相连接。带弱正电荷的脂肪族氢可能是氢键的供体,与 H2O 分子相连接。然而,高碳含量和高 SSA 表明有更多的芳香碳(疏水位点)暴露在外,可抑制 H2O 分子的结合。此外,高 pH 值表明 H2O 分子以 OH- 为主,与生物炭中带负电荷的含氮和含氧基团产生强烈的静电排斥。研究还表明,与碳、氧、氢、灰分含量、pH 值和 SSA 等其他参数(重要性从 0.02 到 0.09 不等)相比,含氮基团在生物炭的 WHC 中起着更重要的作用(重要性 - 0.31)。在所有研究因素中,氮、氧和碳含量对生物炭结合水蒸发的影响最大。此外,在 N2 大气(氮和氧含量高)中低温热解产生的小麦秸秆生物炭的 WHC 最高,生物炭结合水的蒸发量最低。因此,可以认为富含氮的生物炭是一种有效的保水剂,可以改善农业土壤湿度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Roles of biochars’ properties in their water-holding capacity and bound water evaporation: quantitative importance and controlling mechanism

Roles of biochars’ properties in their water-holding capacity and bound water evaporation: quantitative importance and controlling mechanism

Important properties of biochar as an effective soil amendment are its high water-holding capacity (WHC) and inhibition of water evaporation. However, the mechanism and the importance of biochar properties in controlling its own WHC and bound water evaporation remain little known. In this study, wheat straw and pine sawdust biochars were pyrolyzed in N2-flow, CO2-flow, and air-limitation environments at 300–750 ℃, and a series of the produced biochars’ properties were characterized to explore the dominant controlling factors of their WHC and bound water evaporation. The results have shown that with the increasing contents of hydrogen, nitrogen, and oxygen as well as such ratios as H/C, and (O + N)/C, WHC of the biochars was also increasing while the evaporation of biochar-bound water was decreasing. With an increase in the other studied factors, such as carbon content, pH, and specific surface area (SSA), WHC of the biochars was decreasing, and the evaporation of biochar-bound water was increasing. That was connected with the fact that biochar-nitrogen was mainly in pyridinic and pyrrolic forms, while oxygen was in the form of C = O and C–O bonds. These forms of nitrogen and oxygen could be the receptors of hydrogen bonds to link to H2O molecules. Aliphatic hydrogen with a weak positive charge could be a donor of hydrogen bonds to link to H2O molecules. However, high carbon content, as well as high SSA, indicated more exposed aromatic carbon (hydrophobic sites) that could suppress the binding of H2O molecules. Additionally, high pH indicated that H2O molecules were dominated by OH, which generated strong electrostatic repulsion with the negatively charged nitrogen- and oxygen-containing groups of biochar. It was also shown that the nitrogen-containing groups played a more important role (importance – 0.31) in WHC of the biochar than other parameters, including carbon, oxygen, hydrogen, ash contents, pH, SSA (importance from 0.02 to 0.09). Nitrogen, oxygen, and carbon contents had the most important influence on the evaporation of biochar-bound water in all studied factors. Furthermore, wheat straw biochar produced at low pyrolysis temperatures in N2 atmosphere (with high nitrogen and oxygen contents) had the highest WHC and the lowest evaporation of biochar-bound water. Consequently, it can be suggested that biochar rich in nitrogen can be an effective water retention agent and can improve agricultural soil moisture.

Graphical Abstract

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来源期刊
Biochar
Biochar Multiple-
CiteScore
18.60
自引率
10.20%
发文量
61
期刊介绍: Biochar stands as a distinguished academic journal delving into multidisciplinary subjects such as agronomy, environmental science, and materials science. Its pages showcase innovative articles spanning the preparation and processing of biochar, exploring its diverse applications, including but not limited to bioenergy production, biochar-based materials for environmental use, soil enhancement, climate change mitigation, contaminated-environment remediation, water purification, new analytical techniques, life cycle assessment, and crucially, rural and regional development. Biochar publishes various article types, including reviews, original research, rapid reports, commentaries, and perspectives, with the overarching goal of reporting significant research achievements, critical reviews fostering a deeper mechanistic understanding of the science, and facilitating academic exchange to drive scientific and technological development.
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