Study on the adsorption performance and regeneration of lignin-derived graphitic carbon for H2S

IF 4.1 2区 材料科学 Q2 ENGINEERING, CHEMICAL Particuology Pub Date : 2024-08-14 DOI:10.1016/j.partic.2024.08.005
Fen Li, Ruiying Wang, Ying Yang, Menglong Zheng, Qiushuang Li, Dongdong Yang, Huiyu Chen
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Abstract

In pursuit of effective adsorption materials for malodorous gases such as H2S and to broaden the utilization avenues of lignin waste, this study employed the direct pyrolysis method to synthesize three types of alkali lignin graphitized carbons, namely C-800, KC-700, and KEC-700. Among them, KEC-700 exhibits a high specific surface area of 1672.9 m2/g, significantly superior H2S adsorption performance compared to other materials, an adsorption breakthrough time of up to 220 min, and a sulfur capacity of 67.1 mg/g. Structural analysis showed that the more oxygen-containing functional groups of lignin charcoal and the larger specific surface area facilitated the adsorption of H2S. After reaching adsorption saturation, the degree of graphitization of lignin carbon diminishes. The H2S adsorption products primarily manifest as elemental sulfur and sulfate within the pores of lignin carbon measuring less than 2 nm. Through thermal regeneration, the charcoal effectively eliminates the elemental sulfur adsorption product. Nevertheless, sulfate removal proved unsatisfactory, as the adsorption efficiency of KEC-700 following two thermal regenerations was approximately 41% of that observed for fresh samples.

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木质素衍生石墨碳对 H2S 的吸附性能和再生研究
为寻求有效吸附 H2S 等恶臭气体的材料,拓宽木质素废弃物的利用途径,本研究采用直接热解法合成了 C-800、KC-700 和 KEC-700 三种碱木素石墨化碳。其中,KEC-700 的比表面积高达 1672.9 m2/g,H2S 吸附性能明显优于其他材料,吸附突破时间长达 220 分钟,硫容量为 67.1 mg/g。结构分析表明,木质素炭的含氧官能团较多,比表面积较大,有利于吸附 H2S。达到吸附饱和后,木质素炭的石墨化程度降低。在木质素炭小于 2 nm 的孔隙中,H2S 吸附产物主要表现为元素硫和硫酸盐。通过热再生,木炭可有效消除元素硫吸附产物。然而,硫酸盐的去除效果并不理想,因为经过两次热再生后,KEC-700 的吸附效率约为新鲜样品的 41%。
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来源期刊
Particuology
Particuology 工程技术-材料科学:综合
CiteScore
6.70
自引率
2.90%
发文量
1730
审稿时长
32 days
期刊介绍: The word ‘particuology’ was coined to parallel the discipline for the science and technology of particles. Particuology is an interdisciplinary journal that publishes frontier research articles and critical reviews on the discovery, formulation and engineering of particulate materials, processes and systems. It especially welcomes contributions utilising advanced theoretical, modelling and measurement methods to enable the discovery and creation of new particulate materials, and the manufacturing of functional particulate-based products, such as sensors. Papers are handled by Thematic Editors who oversee contributions from specific subject fields. These fields are classified into: Particle Synthesis and Modification; Particle Characterization and Measurement; Granular Systems and Bulk Solids Technology; Fluidization and Particle-Fluid Systems; Aerosols; and Applications of Particle Technology. Key topics concerning the creation and processing of particulates include: -Modelling and simulation of particle formation, collective behaviour of particles and systems for particle production over a broad spectrum of length scales -Mining of experimental data for particle synthesis and surface properties to facilitate the creation of new materials and processes -Particle design and preparation including controlled response and sensing functionalities in formation, delivery systems and biological systems, etc. -Experimental and computational methods for visualization and analysis of particulate system. These topics are broadly relevant to the production of materials, pharmaceuticals and food, and to the conversion of energy resources to fuels and protection of the environment.
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