Development of mesoporous activated carbons derived from brewed coffee waste for CO2 adsorption

Q3 Engineering
D. N. K. Putra Negara, I. Widiyarta, I. Suriadi, I. G. K. Dwijana, I. M. D. Budiana Penindra, I. G. N. P. Tenaya, I. K. Sukadana, Anton Saladin Ferdinand
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引用次数: 1

Abstract

The primary cause of rising CO2 concentrations in the atmosphere is the use of fossil fuels in motor vehicles and factory activities in industry. CO2 levels in the atmosphere can be controlled and reduced by using low-carbon energy and capturing and storing CO2. One widely used way for CO2 capture and storage is adsorption method. This method necessitates the use of an adsorbent, one of which is activated carbon. In this study, brewed coffee waste was converted into activated carbons, characterized, and tested for carbon dioxide adsorption. Brewed coffee waste was dehydrated at 105 ºC for an hour before being carbonized at 550 °C and activated at 670, 700, and 730 °C, with a 200-ml/min nitrogen injection during activation. Activated carbons with activation temperatures of 670, 700, and 730 °C were denoted as AC-670, AC-700, and AC-730, respectively. A series of TGA, SEM, and adsorption isotherm tests were used to determine the proximate components, surface morphology, and surface structure of the activated carbons produced. To assess the adsorption capacities of activated carbon on CO2, the gravimetric CO2 adsorption isotherm method was used. According to the findings of the study, increasing activation temperatures cause variable properties in activated carbon. When using an activation temperature of 700 °C, the most appropriate properties of activated carbon can be obtained. It has 425.843 m2/g specific surface area, 0.345 cm3/g pore volume, 3.423 nm pore diameter, 235.628 cm3/g nitrogen adsorption capacity, and 4.183 mmol/g CO2 adsorption performance. This study provided a simple way converting brewed coffee waste into activated carbon with excellent performance for CO2 adsorption
咖啡渣中介孔活性炭吸附CO2的研究
大气中二氧化碳浓度上升的主要原因是机动车和工业工厂活动中使用化石燃料。大气中的二氧化碳水平可以通过使用低碳能源以及捕获和储存二氧化碳来控制和减少。吸附法是目前广泛应用的二氧化碳捕集与封存方法之一。这种方法需要使用吸附剂,其中一种是活性炭。在本研究中,将煮好的咖啡废料转化为活性炭,对其进行了表征,并对其二氧化碳吸附进行了测试。煮好的咖啡渣在105℃下脱水1小时,然后在550℃下碳化,在670、700和730℃下活化,活化过程中注射200 ml/min的氮气。活化温度为670℃、700℃和730℃的活性炭分别记为AC-670、AC-700和AC-730。采用热重分析仪、扫描电镜和吸附等温线测试来确定活性炭的近似成分、表面形貌和表面结构。采用等温线吸附法测定了活性炭对CO2的吸附能力。根据研究结果,提高活化温度会导致活性炭的性能发生变化。当活化温度为700℃时,可获得最合适的活性炭性能。具有425.843 m2/g比表面积,0.345 cm3/g孔体积,3.423 nm孔径,235.628 cm3/g氮气吸附容量,4.183 mmol/g CO2吸附性能。本研究提供了一种简单的方法将冲泡咖啡渣转化为活性炭,并具有优异的CO2吸附性能
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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