利用真空热解技术优化和表征从长生草生物质中提取的生物炭

Poonam Poonia, Loveena Gaur
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引用次数: 0

摘要

入侵杂草的过度生长会对经济和环境造成不利影响。在本研究中,入侵杂草石菖蒲(Calotropis gigantea)在 450° 和 50-100 mm 粒径的优化参数下进行热解,反应时间为 1.00 小时,以生产生物炭。生物炭的特点是含碳量高(64.65%),H/C 和 O/C 摩尔比低(分别为 0.08 和 0.15)。生物炭的表面积高达 99.91m2/g,孔隙率为 0.0398cm3/g,矿物质含量为 K-1.33%、Na-1.17%、Mg-1.05%。在 1994.1 cm-1、1110 cm-1 和 745 cm-1 处观察到强烈的傅立叶变换红外光谱带,分别代表烯烃(R 2C=C=CR 2)、芳基烷基醚(R - O - R)和芳香族(C-H)弯曲。所有这些参数都表明它在固碳、减缓气候变化、吸附环境污染物(有机和无机污染物)和改良土壤等方面具有应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization and Characterization of Biochar Obtained from the Weedy Biomass of Calotropis gigantea Using Vacuum Pyrolysis
The excessive growth of invasive weeds causes adverse economic and environmental effects. In the present study, invasive weed Calotropis gigantea was pyrolyzed under optimized parameters of 450° and 50-100 mm particle size for 1.00 hour of reaction time for biochar production. The biochar was characterized by the presence of a high carbon content of 64.65% and low H/C and O/C molar ratios of 0.08 and 0.15, respectively. The biochar was observed with high surface area of 99.91m2/g and pore volume of 0.0398cm3/g along with mineral fractions such as K-1.33%, Na-1.17%, Mg-1.05%. Strong FTIR bands were observed at 1994.1 cm-1, 1110 cm-1, and 745 cm-1, representing allenes (R 2C=C=CR 2), aryl alkyl ethers (R – O – R), and aromatic (C–H) bending. All these parameters indicate its potential in the applications such as carbon sequestration, climate change mitigation, environment pollutants adsorption (both organic and inorganic), and soil improvement.
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