Improving hypercrosslinked polymer CO2/N2 selective separation through tuning polymer's porous properties: Optimization using RSM-BBD

IF 7.2 2区 工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of CO2 Utilization Pub Date : 2024-09-16 DOI:10.1016/j.jcou.2024.102926
Forough Bahmei , Alireza Hemmati , Ahad Ghaemi , Maryam Bahreini
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Abstract

This study investigates the effect of synthesis and operating parameters on the adsorption of CO2 and N2 and the CO2/N2 selectivity of a hypercrosslinked adsorbent based on waste-expanded polystyrene. Six factors were examined, including synthesis time, crosslinker and catalyst amounts, adsorption temperature and pressure, and CO2 percentage in the mixture. The response surface methodology (RSM) and ideal adsorbed solution theory (IAST) were employed to design the experiment. After synthesizing 19 adsorbents under different conditions, characterization tests were conducted. Results indicate that the specific surface area and micropore volume initially increase and then decrease with increased synthesis time, crosslinker, and catalyst amounts. The highest specific surface area and micropore volume were 803.84 m2/g and 0.1355 cm3/g, respectively. CO2/N2 selectivity and the adsorption of CO2 and N2 also increase and decrease with increased synthesis parameters. Furthermore, it was observed that CO2 adsorption and CO2/N2 selectivity increased with an increase in pressure and CO2 percentage and a decrease in temperature, while N2 adsorption decreased. The adsorbents were optimized using RSM to maximize CO2 adsorption and CO2/N2 selectivity with a target of 15 % CO2 in the gas mixture. The optimal synthesis parameters for the hypercrosslinked adsorbent, including synthesis time, crosslinker, and catalyst amounts, were determined to be approximately 13 hours, 30 mmol, and 30 mmol, respectively. Under optimal conditions for flue gas applications (CO2:N2/15:85), the adsorbent demonstrated a CO2/N2 selectivity of 11.05, making it suitable for flue gas capture.

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通过调整聚合物的多孔特性改善超交联聚合物的 CO2/N2 选择性分离性能:利用 RSM-BBD 进行优化
本研究探讨了合成和操作参数对基于废旧发泡聚苯乙烯的超交联吸附剂吸附 CO2 和 N2 以及 CO2/N2 选择性的影响。研究了六个因素,包括合成时间、交联剂和催化剂用量、吸附温度和压力以及混合物中的 CO2 百分比。实验设计采用了响应面方法(RSM)和理想吸附溶液理论(IAST)。在不同条件下合成 19 种吸附剂后,进行了表征试验。结果表明,随着合成时间、交联剂和催化剂用量的增加,比表面积和微孔体积先增大后减小。最高的比表面积和微孔体积分别为 803.84 m2/g 和 0.1355 cm3/g。CO2/N2 选择性以及 CO2 和 N2 的吸附量也随着合成参数的增加而增大和减小。此外,还观察到 CO2 吸附量和 CO2/N2 选择性随压力和 CO2 百分比的增加以及温度的降低而增加,而 N2 吸附量则减少。利用 RSM 对吸附剂进行了优化,以最大限度地提高二氧化碳吸附率和 CO2/N2 选择性,目标是使混合气体中的二氧化碳含量达到 15%。确定了超交联吸附剂的最佳合成参数,包括合成时间、交联剂和催化剂用量,分别约为 13 小时、30 毫摩尔和 30 毫摩尔。在烟道气应用的最佳条件下(CO2:N2/15:85),该吸附剂的 CO2/N2 选择性为 11.05,因此适用于烟道气捕获。
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来源期刊
Journal of CO2 Utilization
Journal of CO2 Utilization CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL
CiteScore
13.90
自引率
10.40%
发文量
406
审稿时长
2.8 months
期刊介绍: The Journal of CO2 Utilization offers a single, multi-disciplinary, scholarly platform for the exchange of novel research in the field of CO2 re-use for scientists and engineers in chemicals, fuels and materials. The emphasis is on the dissemination of leading-edge research from basic science to the development of new processes, technologies and applications. The Journal of CO2 Utilization publishes original peer-reviewed research papers, reviews, and short communications, including experimental and theoretical work, and analytical models and simulations.
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