湿度对胺功能化微孔活性炭增强二氧化碳吸附能力的影响。

IF 5.8 3区 环境科学与生态学 0 ENVIRONMENTAL SCIENCES Environmental Science and Pollution Research Pub Date : 2024-11-16 DOI:10.1007/s11356-024-35559-x
Masoumeh Lotfinezhad, Maryam Tahmasebpoor, Covadonga Pevida
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引用次数: 0

摘要

通过在微孔活性炭(AC)材料中加入单乙醇胺(MEA)和四乙烯五胺(TEPA),制造出了用于捕获二氧化碳的具有成本效益且环保的吸附剂。使用 KOH 试剂可提高碳材料的表面积和孔隙率。利用 BET、SEM、EDX 和 FTIR 技术分析了所开发样品的结构和表面特性。原始 AC 的表面积最大,微孔体积最大,分别为 786 m2/g 和 0.33 cm3/g。胺浸渍增加了碳材料中的氮含量,但也显著降低了 BET 表面积和总孔隙体积,而这正是 AC 物理吸附二氧化碳的主要原因。在不同的吸附温度(25 和 50 °C)和二氧化碳浓度(10 和 90 vol.%)下,使用热重分析法(TGA)对未加工和浸渍过的 AC 的二氧化碳吸附性能进行了实验评估。结果表明,未加工的 AC 具有最高的二氧化碳吸附能力。具体而言,在温度为 25 °C、压力为 1 bar(二氧化碳浓度为 10 Vol.%,氮气平衡)的条件下,未加工 AC 的二氧化碳吸收量为 1.2 mmol/g,与 MEA-AC 的二氧化碳吸收量(0.5 mmol/g)和 TEPA-AC 的二氧化碳吸收量(0.3 mmol/g)相比,分别高出 60.3% 和 79.3%。令人惊讶的是,在 50 °C、10 体积百分比 CO2、4 体积百分比 H2O 和 N2 平衡的条件下,如果考虑到潮湿烟气,MEA-AC 和 TEPA-AC 的 CO2 + H2O 综合吸收率分别增加了 12.5 和 23.4 重量百分比(相当于 7 和 13 毫摩尔/克)。这些结果表明,H2O 的存在促进了本研究制备的新型碳基吸附剂对 CO2 的化学吸附,从而提高了其在含水蒸气烟气中吸附 CO2 的能力。
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The effect of humidity on the enhanced CO2 adsorption of amine-functionalized microporous activated carbon.

Cost-effective and environmentally friendly sorbents were created for capturing CO2 by incorporating monoethanolamine (MEA) and tetraethylenepentamine (TEPA) onto a microporous activated carbon (AC) material. The application of a KOH reagent enhanced the surface area and pore volume of the carbon material. The BET, SEM, EDX, and FTIR techniques were employed to analyze the structural and surface properties of the developed samples. Raw AC possessed the highest surface area and largest micropore volume equal to 786 m2/g and 0.33 cm3/g, respectively. The amine impregnation increased the nitrogen content of the carbon material, but it also significantly reduced the BET surface area and total pore volume, which are primarily responsible for physically adsorbing CO2 towards ACs. The CO2 adsorption performance of the raw and impregnated ACs was experimentally evaluated using thermogravimetric analysis (TGA) at different adsorption temperatures (25 and 50 °C) and CO2 concentrations (10 and 90 vol.%). The findings demonstrated that the raw AC exhibited the highest capacity for CO2 adsorption. Specifically, at a temperature of 25 °C and pressure of 1 bar (10 vol.% CO2, N2 balance), the raw AC achieved an uptake of 1.2 mmol/g, which was 60.3% and 79.3% higher compared to the CO2 uptake of MEA-AC (0.5 mmol/g) and TEPA-AC (0.3 mmol/g), respectively. It is surprising that the combined uptake of CO2 + H2O increased by 12.5 and 23.4 wt.% (equivalent to 7 and 13 mmol/g) for MEA-AC and TEPA-AC, respectively, when humid flue gas was taken into account under the conditions of 50 °C, with 10 vol.% CO2, 4 vol.% H2O, and N2 balance. These results indicate that the presence of H2O facilitates the chemisorption of CO2 by the novel and highly promising carbon-based sorbent prepared in this study, leading to an increased capacity for adsorbing CO2 under water vapor containing flue gases.

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来源期刊
CiteScore
8.70
自引率
17.20%
发文量
6549
审稿时长
3.8 months
期刊介绍: Environmental Science and Pollution Research (ESPR) serves the international community in all areas of Environmental Science and related subjects with emphasis on chemical compounds. This includes: - Terrestrial Biology and Ecology - Aquatic Biology and Ecology - Atmospheric Chemistry - Environmental Microbiology/Biobased Energy Sources - Phytoremediation and Ecosystem Restoration - Environmental Analyses and Monitoring - Assessment of Risks and Interactions of Pollutants in the Environment - Conservation Biology and Sustainable Agriculture - Impact of Chemicals/Pollutants on Human and Animal Health It reports from a broad interdisciplinary outlook.
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