Ramily, S., Elkhatib, E., Mahdy, A., Saad, A. (2023). Zeolite –Nanoscale Water Treatment Residual Composite For Removal of Cadmium and Lead From Industrial Waste Water. Alexandria Journal of Agricultural Sciences, 68(2), 138-140. doi: 10.21608/alexja.2023.316716
Safa Abd Elhamed Abd El Fattah Ramily; Elsayed Ahmed Elkhatib; Ahmed Mohamed Mahdy; Ahmed Farid Saad. "Zeolite –Nanoscale Water Treatment Residual Composite For Removal of Cadmium and Lead From Industrial Waste Water". Alexandria Journal of Agricultural Sciences, 68, 2, 2023, 138-140. doi: 10.21608/alexja.2023.316716
Ramily, S., Elkhatib, E., Mahdy, A., Saad, A. (2023). 'Zeolite –Nanoscale Water Treatment Residual Composite For Removal of Cadmium and Lead From Industrial Waste Water', Alexandria Journal of Agricultural Sciences, 68(2), pp. 138-140. doi: 10.21608/alexja.2023.316716
Ramily, S., Elkhatib, E., Mahdy, A., Saad, A. Zeolite –Nanoscale Water Treatment Residual Composite For Removal of Cadmium and Lead From Industrial Waste Water. Alexandria Journal of Agricultural Sciences, 2023; 68(2): 138-140. doi: 10.21608/alexja.2023.316716
Zeolite –Nanoscale Water Treatment Residual Composite For Removal of Cadmium and Lead From Industrial Waste Water
Soil and Water Sciences, Faculty of Agriculture, Alexandria University, Alexandria, Egypt
Receive Date: 15 June 2023,
Revise Date: 30 June 2023,
Accept Date: 30 June 2023
Abstract
Water pollution has an adverse effect on environment, and it can reflect dangerous results on human health. To overcome this emerging problem, researchers are still exploring different new technologies to improve water purification methods with low cost. The newly emerging nanotechnology provides a potential to purify water with high efficiency and reusability. Therefore, the main objective of this study was to evaluate the efficiency of a novel, inexpensive and eco-friendly nano-composite in removing selected heavy metals from contaminated wastewater. To achieve such objective, synthesis of nano-composite {Zeolite (Ze)-nano water treatment residual (nWTR) was performed along with equilibrium, kinetics and thermodynamic studies of Cd and Pb sorption by the novel nano sorbent