Author:
Helmi Maryam,Khoshdouni Farahani Zahra,Hemmati Alireza,Ghaemi Ahad
Abstract
AbstractBurning fossil fuels releases toxic gases into the environment and has negative effects on it. In this study, Persian gum@Graphene oxide (Pg@GO) was synthesized and used as a novel adsorbent for CO2 capture. The characterization of materials was determined through XRD, FTIR, FE-SEM, and TGA analysis. The operating parameters including temperature, Pressure, and adsorbent weight were studied and optimized by response surface methodology via Box–Behnken design (RSM-BBD). The highest amount of CO2 adsorption capacity was 4.80 mmol/g, achieved at 300 K and 7.8 bar and 0.4 g of adsorbent weight. To identify the behavior and performance of the Pg@GO, various isotherm and kinetic models were used to fit with the highest correlation coefficient (R2) amounts of 0.955 and 0.986, respectively. The results proved that the adsorption of CO2 molecules on the adsorbent surface is heterogeneous. Based on thermodynamic results, as the value of ΔG° is − 8.169 at 300 K, the CO2 adsorption process is exothermic, and spontaneous.
Publisher
Springer Science and Business Media LLC
Reference75 articles.
1. Feng, X. et al. MnyCo3−yOx bimetallic oxide prepared by ultrasonic technology for significantly improved catalytic performance in the reduction of NOx with NH3. Fuel 352, 129159 (2023).
2. Li, Z. et al. Ionic liquid hybrid metal–organic frameworks for efficient adsorption and selective separation of ammonia at high temperature. Chem Eng J 464, 142728 (2023).
3. Ghaemi, A. & Behroozi, A. H. Comparison of hydroxide-based adsorbents of Mg(OH)2 and Ca(OH)2 for CO2 capture: Utilization of response surface methodology, kinetic, and isotherm modeling. Greenh. Gases Sci. Technol. 10(5), 948–964 (2020).
4. Pashaei, H., Ghaemi, A. & Nasiri, M. Modeling and experimental study on the solubility and mass transfer of CO2 into aqueous DEA solution using a stirrer bubble column. RSC Adv. 6(109), 108075–108092 (2016).
5. Gao, S. et al. Ingenious artificial leaf based on covalent organic framework membranes for boosting CO2 photoreduction. J. Am. Chem. Soc. 145(17), 9520–9529 (2023).
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