Solid-phase synthesis of silicalite-1 molecular sieve based on fly ash and its CO2 adsorption performance

IF 2.7 4区环境科学与生态学 Q3 ENERGY & FUELS

Greenhouse Gases: Science and Technology Pub Date : 2024-10-07 DOI:10.1002/ghg.2306

Xianglian Wu, Aisha Nulahong, Conghui Miao, Qinghua Liu, Jiangyuan Li, Changmin Tuo

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Abstract

In this work, an alkali melting-pickling assisted solid phase synthesis method of S-1 zeolite molecular sieve with excellent adsorption properties for CO₂ was successfully developed by using solid waste fly ash. SiO₂ with a purity of up to 97.84% was successfully extracted by using alkaline fusion activation, high temperature calcination and pickling. The CO₂ adsorption capacity of the prepared SiO₂ was 0.51 mmol/g at 298 K and 1 bar. Silicalite-1 molecular sieve was prepared by solid phase synthesis method using SiO₂ extracted from fly ash as silicon source. The results showed that the prepared Silicalite-1 had good morphology and relatively high crystallinity. The specific surface area is 623.30 m²/g, and the total pore volume is 0.31 cm³/g. In addition, the adsorption capacity of CO₂ was 2.05 mmol/g at 298 K and 1 bar. Compared with the prepared SiO₂, the adsorption capacity of CO₂ by Silicalite-1 molecular sieve increased by four times. Moreover, under the test condition of 298 K, it has a high selectivity coefficient for CO₂/N₂ mixed gas, and after 10 times of adsorption-desorption cycle tests, the adsorption capacity of Silicalite-1 molecular sieve for CO₂ does not change significantly, and its adsorption rate can still be as high as 89.31%. The results indicate that Silicalite-1 molecular sieve prepared by solid phase synthesis method has good adsorption selectivity and adsorption–desorption cycle regeneration stability, and can be used in the field of CO₂ adsorption, separation and purification. © 2024 Society of Chemical Industry and John Wiley & Sons, Ltd.

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粉煤灰固相合成硅石-1分子筛及其CO2吸附性能研究

本文以固体废粉煤灰为原料，成功地开发了碱熔-酸洗辅助固相合成具有优异CO2吸附性能的S-1分子筛的方法。通过碱熔融活化、高温煅烧、酸洗等工艺，成功提取出纯度达97.84%的SiO2。制备的SiO2在298 K、1 bar条件下的CO2吸附量为0.51 mmol/g。以粉煤灰中提取的SiO2为硅源，采用固相合成法制备了硅石-1分子筛。结果表明，所制得的硅石-1具有良好的形貌和较高的结晶度。比表面积为623.30 m2/g，总孔容为0.31 cm3/g。在298 K、1 bar条件下，对CO2的吸附量为2.05 mmol/g。与制备的SiO2相比，硅石-1分子筛对CO2的吸附量提高了4倍。此外，在298 K的测试条件下，它对CO2/N2混合气体具有较高的选择性系数，并且经过10次吸附-解吸循环测试后，硅石-1分子筛对CO2的吸附能力没有明显变化，其吸附率仍可高达89.31%。结果表明，固相合成法制备的硅石-1分子筛具有良好的吸附选择性和吸附-脱附循环再生稳定性，可用于CO2吸附、分离和净化领域。©2024化学工业协会和John Wiley &；儿子,有限公司

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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

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