Effect of Arginine-Based Deep Eutectic Solvents on Supported Porous Sorbent for CO2 Capture Analysis

IF 0.7 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES Sains Malaysiana Pub Date : 2023-05-31 DOI:10.17576/jsm-2023-5205-08
N. Suhaili, L. Lim, L. P. Teh, Siti Nurzubaida Shahdan, Zaitun Ghazali, M. Miyamoto, S. Uemiya, R. Othaman
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Abstract

Carbon dioxide (CO2) as one of the heat-trapping gases, has caused global warming. Being a greener and more economical material, amino acid-based deep eutectic solvents (AADES) have attracted interest in CO2 capture applications. In this paper, the effect of L-arginine (Arg) in binary AADES of arginine-ethylene glycol (Arg-EG) and ternary AADES of choline chloride-ethylene glycol-arginine (ChCl-EG-Arg) on adsorption of CO2 was studied. The solubility, basicity, and physicochemical characteristics were compared with the binary DES (ChCl-EG) before and after being impregnated into a silica gel (SG) via the wet impregnation method. The AADES/SG adsorbents were evaluated for CO2 sorption performance using an automated gas sorption analyzer at 100% CO2 loading and thermogravimetric analysis (TGA) at flue gas conditions (15% CO2/85% N2). Findings show the basicity and the nitrogen content (N%) of AADES/SG were increased as Arg was added and DES/AADES functional group peaks (amino, hydroxyl, alkyl groups) were observed after the impregnation. The CO2 sorption of 16.0 mg/g at 25 °C and 1 atm was achieved by 30% Arg-EG(1:8)/SG followed by 30% ChCl-EG-Arg (1:2:0.1)/SG (14.8 mg/g) and 30% ChCl-EG/SG(1:2) (14.5 mg/g) using an Autosorb iQ2 instruments with 100% CO2 loading. The CO2 uptake was increased almost linearly with increasing pressure and decreased with increasing temperature. The Arg-EG(1:8)/SG shows the highest selectivity toward CO2 than other sorbents with 8.10 mg/g adsorption for 1 h at 15% CO2 loading at 25 °C with higher thermal stability and surface area. Considering environmental, technological, and economic viewpoints, the Arg-EG(1:8)/SG can be explored more as a potential solid sorbent for CO2 capture.
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精氨酸基深共晶溶剂对CO2捕集分析负载型多孔吸附剂的影响
二氧化碳(CO2)作为一种吸热气体,导致了全球变暖。作为一种更环保、更经济的材料,氨基酸基深度共晶溶剂(AADES)已经引起了人们对二氧化碳捕获应用的兴趣。本文研究了精氨酸-乙二醇二元AADES (Arg- eg)和氯化胆碱-乙二醇-精氨酸三元AADES (ChCl-EG-Arg)中l-精氨酸(Arg)对CO2吸附的影响。采用湿浸渍法对二价DES (ChCl-EG)在硅胶(SG)中浸渍前后的溶解度、碱度和理化性质进行了比较。采用自动气体吸附分析仪对AADES/SG吸附剂在100% CO2负荷下的CO2吸附性能和烟气条件(15% CO2/85% N2)下的热重分析(TGA)进行了评价。结果表明,随着Arg的加入,AADES/SG的碱度和含氮量(N%)均有所增加,浸渍后DES/AADES的官能团(氨基、羟基、烷基)出现了峰。在25°C和1atm条件下,采用30% Arg-EG(1:8)/SG、30% ChCl-EG- arg (1:2:0.1)/SG (14.8 mg/g)和30% ChCl-EG/SG(1:2) (14.5 mg/g)吸附CO2,吸附量为16.0 mg/g。CO2吸收量随压力的增加几乎呈线性增加,随温度的升高而降低。Arg-EG(1:8)/SG对CO2的选择性最高,吸附时间为8.10 mg/g,吸附温度为25℃,吸附量为15%,吸附时间为1 h,具有较高的热稳定性和表面积。从环境、技术和经济的角度考虑,Arg-EG(1:8)/SG可以作为一种潜在的二氧化碳捕获固体吸附剂进行更多的探索。
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来源期刊
Sains Malaysiana
Sains Malaysiana MULTIDISCIPLINARY SCIENCES-
CiteScore
1.60
自引率
12.50%
发文量
196
审稿时长
3-6 weeks
期刊介绍: Sains Malaysiana is a refereed journal committed to the advancement of scholarly knowledge and research findings of the several branches of science and technology. It contains articles on Earth Sciences, Health Sciences, Life Sciences, Mathematical Sciences and Physical Sciences. The journal publishes articles, reviews, and research notes whose content and approach are of interest to a wide range of scholars. Sains Malaysiana is published by the UKM Press an its autonomous Editorial Board are drawn from the Faculty of Science and Technology, Universiti Kebangsaan Malaysia. In addition, distinguished scholars from local and foreign universities are appointed to serve as advisory board members and referees.
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