Experimental Study and Thermodynamic Analysis of Carbon Dioxide Adsorption onto Activated Carbons Prepared from Biowaste Raw Materials

IF 2.7 4区环境科学与生态学 Q3 ENERGY & FUELS

Greenhouse Gases: Science and Technology Pub Date : 2023-08-14 DOI:10.3390/gases3030008

O. V. Solovtsova, I. Men’shchikov, A. Shkolin, A. E. Grinchenko, E. Khozina, A. Fomkin

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引用次数: 0

Abstract

Nutshells are regarded as cost-effective and abundant raw materials for producing activated carbons (ACs) for CO2 capture, storage, and utilization. The effects of carbonization temperature and thermochemical KOH activation conditions on the porous structure as a BET surface, micropore volume, micropore width, and pore size distribution of ACs prepared from walnut (WNS) and hazelnut (HNS) shells were investigated. As a result, one-step carbonization at 900/800 °C and thermochemical KOH activation with a char/KOH mass ratio of 1:2/1:3 were found to be optimal for preparing ACs from WNS/HNS: WNS-AC-3 and HNS-AC-2, respectively. The textural properties of the WNS/HNS chars and ACs were characterized by low-temperature nitrogen vapor adsorption, XRD, and SEM methods. Dubinin’s theory of volume filling of micropores was used to evaluate the microporosity parameters and to calculate the CO2 adsorption equilibrium over the sub- and supercritical temperatures from 216.4 to 393 K at a pressure up to 10 MPa. The CO2 capture capacities of WNS- and HNS-derived adsorbents reached 5.9/4.1 and 5.4/3.9 mmol/g at 273/293 K under 0.1 MPa pressure, respectively. A discrepancy between the total and delivery volumetric adsorption capacities of the adsorbents was attributed to the strong binding of CO2 molecules with the adsorption sites, which were mainly narrow micropores with a high adsorption potential. The high initial differential heats of CO2 adsorption onto ACs of ~32 kJ/mol confirmed this proposal. The behaviors of thermodynamic functions (enthalpy and entropy) of the adsorption systems were attributed to changes in the state of adsorbed CO2 molecules determined by a balance between attractive and repulsive CO2–CO2 and CO2–AC interactions during the adsorption process. Thus, the chosen route for preparing ACs from the nutshells made it possible to prepare efficient carbon adsorbents with a relatively high CO2 adsorption performance due to a substantial volume of micropores with a size in the range of 0.6–0.7 nm.

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生物质原料活性炭吸附二氧化碳的实验研究及热力学分析

坚果壳被认为是生产活性炭(ACs)的一种具有成本效益和丰富的原料，用于二氧化碳的捕获、储存和利用。研究了炭化温度和热化学KOH活化条件对以核桃壳和榛子壳为原料制备的活性炭的多孔结构、微孔体积、微孔宽度和孔径分布的影响。结果表明，以WNS/HNS: WNS- ac -3和HNS- ac -2为原料，在900/800℃下一步炭化和炭/KOH质量比为1:2/1:3的热化学KOH活化是制备ACs的最佳条件。采用低温氮气蒸汽吸附、XRD和SEM等方法对WNS/HNS炭和活性炭的结构特性进行了表征。采用Dubinin的微孔体积填充理论对微孔参数进行了评价，并计算了在216.4 ~ 393 K的亚、超临界温度和10 MPa压力下的CO2吸附平衡。在273/293 K和0.1 MPa压力下，WNS-和hns衍生吸附剂的CO2捕集能力分别达到5.9/4.1和5.4/3.9 mmol/g。吸附剂的总吸附容量与输送容量之间的差异主要是由于CO2分子与吸附位点的强结合，吸附位点主要是具有高吸附电位的窄微孔。CO2在活性炭上的高初始吸附差热(~ 32kj /mol)证实了这一说法。吸附系统的热力学函数(焓和熵)行为归因于吸附过程中CO2 - CO2和CO2 - ac相互作用的平衡所决定的被吸附CO2分子状态的变化。因此，选择的从坚果壳制备活性炭的途径使得制备具有相对较高CO2吸附性能的高效碳吸附剂成为可能，因为其具有大量的微孔，尺寸在0.6-0.7 nm范围内。

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来源期刊

Greenhouse Gases: Science and Technology ENERGY & FUELS-ENGINEERING, ENVIRONMENTAL

CiteScore

4.90

自引率

4.50%

发文量

审稿时长

3 months

期刊介绍： Greenhouse Gases: Science and Technology is a new online-only scientific journal dedicated to the management of greenhouse gases. The journal will focus on methods for carbon capture and storage (CCS), as well as utilization of carbon dioxide (CO2) as a feedstock for fuels and chemicals. GHG will also provide insight into strategies to mitigate emissions of other greenhouse gases. Significant advances will be explored in critical reviews, commentary articles and short communications of broad interest. In addition, the journal will offer analyses of relevant economic and political issues, industry developments and case studies. Greenhouse Gases: Science and Technology is an exciting new online-only journal published as a co-operative venture of the SCI (Society of Chemical Industry) and John Wiley & Sons, Ltd