粉煤灰
沸石
吸附
煤
热重分析
结晶度
燃烧
化学工程
煤燃烧产物
碳纤维
水分
化学
废物管理
材料科学
核化学
催化作用
有机化学
复合材料
工程类
复合数
作者
Thiago Fernandes de Aquino,Sabrina Teixeira Estevam,Vanessa O. Viola,Carolina Resmini Melo Marques,Fernando Zancan,Lídia B. Vasconcelos,Humberto Gracher Riella,Marçal Pires,Rafael Morales-Ospino,A. Eurico B. Torres,Moisés Bastos-Neto,Célio L. Cavalcante
出处
期刊:Fuel
[Elsevier BV]
日期:2020-05-22
卷期号:276: 118143-118143
被引量:128
标识
DOI:10.1016/j.fuel.2020.118143
摘要
Given the increase in CO 2 emissions, the adsorption process using zeolites are proposed to remove this compound from combustion gases in pulverized coal power plants. Besides it, these materials can also be synthesized using coal fly ash to reconcile environmental and economic concerns. The aim of this study was to measure the adsorption capacity of zeolites synthesized from coal fly ash compared with commercial zeolites and assess their performance in temperature swing adsorption processes. Two pelletized synthetic zeolites were selected, one NaX type (SZX) and one NaA type (SZA), and two commercial zeolites, one NaX (CZX) and one NaA (CZA). Zeolites were characterized by XRF, XRD and textural analysis (BET). Adsorption capacity tests were performed by thermogravimetric analysis using similar CO 2 concentrations to those found in pulverized carbon combustion gases, without moisture. Isotherms were also obtained for synthetic and commercial zeolites type X. The XRD results showed substantial similarity between the commercial and synthesized zeolites, indicating a good degree of crystallinity. The CO 2 adsorption capacity at 303 K for both samples showed values similar to those reported in the literature (1.97 mmol/g for SZX and 1.37 mmol/g for SZA), demonstrating their potential in commercial applications. After five cycles, the adsorption capacity of all samples remained practically unchanged, indicating the possibility of application in TSA processes. In the adsorption tests at different temperatures and in the isotherms, adsorption capacity declined as temperature increased for both samples, being similar to benchmark commercial 13X and 4A zeolite adsorbents.
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