The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution
Solyman, S., Ali, H., Moustafa, Y. (2021). The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution. EKB Journal Management System, 64(10), 6123-6135. doi: 10.21608/ejchem.2021.55304.3172
Sanaa Solyman; Hager Ali; Yasser Moustafa. "The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution". EKB Journal Management System, 64, 10, 2021, 6123-6135. doi: 10.21608/ejchem.2021.55304.3172
Solyman, S., Ali, H., Moustafa, Y. (2021). 'The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution', EKB Journal Management System, 64(10), pp. 6123-6135. doi: 10.21608/ejchem.2021.55304.3172
Solyman, S., Ali, H., Moustafa, Y. The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution. EKB Journal Management System, 2021; 64(10): 6123-6135. doi: 10.21608/ejchem.2021.55304.3172

The Performance of Inorganic Salts/PMMA Nanocomposites in Ca and Mg Adsorption from Aqueous Solution

Egyptian Journal of Chemistry
Article 70, Volume 64, Issue 10, October 2021, Page 6123-6135  XML PDF (994.09 K)
Document Type: Original Article
DOI: 10.21608/ejchem.2021.55304.3172
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Authors
Sanaa Solymanorcid 1; Hager Ali email 2; Yasser Moustafa2
1Petrochemical department, Egyptian petroleum research institute, Nasr City, PO Box 11727, Cairo, Egypt.
2Analysis and Evaluation department, Central lab. Egyptian petroleum research institute, Nasr City, PO Box 11727, Cairo, Egypt.
Abstract
This study aimed to synthesize a new hybrid polymethyl methacrylate (PMMA) nanocomposites as catalysts in water treatment with high efficiency. We prepared three different materials, PMMA alone, then TiSO4/PMMA, and CaSO4/PMMA. After that, we made a screening experiment and found that TiSO4/PMMA was effective for Ca+2 removal and CaSO4/PMMA was effective for Mg+2 removal, and we made the optimization process according to this principle. The pH, contact time, dose, initial pollutant concentration, and temperature were performed to obtain the optimum parameters that achieve the highest Ca+2, Mg+2 removal efficiency as main cations causing hardness. The nanocomposite samples were characterized using different techniques. The CaSO4 nanoparticles were distributed uniformly across the CaSO4/PMMA matrix but TiSO4/PMMA has the parallel plate's morphology. Accordingly, the structures of the hybrids have been postulated. The maximum elimination value was 87.5% for Ca+2 and 65% for Mg+2. Adsorption isotherm and kinetics were demonstrated to set the nature of the reaction. Langmuir adsorption isotherm models were fitted with the experimental data for Mg+2 and Ca+2. The data of the pseudo-second-order kinetic model adequately fit the experimental values for the adsorption of Mg+2 and Ca+2. The positive values of ΔGo for Ca+2 (1.86 to 5.8 KJ/mol ) at all temperatures, and ΔGo for Mg+2 (1.5 KJ/mol) at 25oC indicated spontaneous adsorption process while the negative values for Mg+2 at 40oC and 60oC indicated a non-spontaneous adsorption process.
Keywords
Nanocomposites; Ca and Mg removal; Inorganic/PMMA; Kinetics
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