氢氧化钾活化对稻壳衍生多孔活性炭在类似烟气温度下具有高CO₂/N₂选择性的碳捕集性能的影响

Impact of KOH Activation on Rice Husk Derived Porous Activated Carbon for Carbon Capture at Flue Gas alike Temperatures with High CO/N Selectivity.

作者信息

Nandi Rajib, Jha Mithilesh Kumar, Guchhait Sujit Kumar, Sutradhar Debanjan, Yadav Shashikant

机构信息

Dr. B. R. Ambedkar National Institute of Technology, Jalandhar144011, India.

Sardar Swaran Singh National Institute of Bio-Energy, Kapurthala144601, India.

出版信息

ACS Omega. 2023 Jan 13;8(5):4802-4812. doi: 10.1021/acsomega.2c06955. eCollection 2023 Feb 7.

DOI:10.1021/acsomega.2c06955

PMID:36777600

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9910064/

Abstract

Metal-free porous activated carbon is an effective alternative to capture CO due to its high surface area and textural advantages. In this regard, the present research work explores a suitable method for producing activated porous carbon with a high specific surface area through a two-step reaction involving rice husk and KOH at 600 °C for 1 h to capture CO. By varying the ratio of rice husk biomass to KOH, the texture and specific surface area of the activated porous carbon has been altered. A high surface area of ∼755 m/g and a micropore volume of 0.243 cm/g have been observed in the porous carbon produced with a KOH/biomass weight ratio of 3 (PAC2). Nitrogen contents in PAC1 and PAC2 were approximately 2.27 and 2.71 atom %, respectively. When compared with other materials, PAC2 has the highest CO adsorption capability, reaching up to 3.13 mmol/g at 0 °C and 1.55 mmol/g at 50 °C. The isosteric heat of adsorption confirms the presence of both physisorption and chemisorption. The materials turn out to be highly CO/N selective, with the highest selectivity of 131, proving that the samples are potential materials for capturing CO from flue gases. These findings unequivocally show that porous activated carbon can be used to make CO adsorption efficient, inexpensive, and, more importantly, extremely effective.

摘要

无金属多孔活性炭由于其高比表面积和结构优势，是捕获二氧化碳的有效替代品。在这方面，本研究工作探索了一种合适的方法，通过在600℃下将稻壳与氢氧化钾进行1小时的两步反应来制备具有高比表面积的活性多孔碳，以捕获二氧化碳。通过改变稻壳生物质与氢氧化钾的比例，活性多孔碳的结构和比表面积发生了变化。在氢氧化钾/生物质重量比为3制备的多孔碳（PAC2）中，观察到高比表面积约为755 m²/g，微孔体积为0.243 cm³/g。PAC1和PAC2中的氮含量分别约为2.27和2.71原子%。与其他材料相比，PAC2具有最高的二氧化碳吸附能力，在0℃时达到3.13 mmol/g，在50℃时达到1.55 mmol/g。吸附等量热证实了物理吸附和化学吸附的存在。这些材料对二氧化碳/氮气具有高度选择性，最高选择性为131，证明这些样品是从烟气中捕获二氧化碳的潜在材料。这些发现明确表明，多孔活性炭可用于使二氧化碳吸附高效、廉价，更重要的是极其有效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c90d/9910064/394e8597a42e/ao2c06955_0002.jpg

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氢氧化钾活化对稻壳衍生多孔活性炭在类似烟气温度下具有高CO₂/N₂选择性的碳捕集性能的影响

Impact of KOH Activation on Rice Husk Derived Porous Activated Carbon for Carbon Capture at Flue Gas alike Temperatures with High CO/N Selectivity.

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