Özet:

In this study, graphene oxide (GO) adsorbent in laboratory conditions has been developed to eliminate the Bulk (Pb) found in the mining industry waste waters through the adsorption process. According to the XRD outcomes, the gravity values on the surface of graphene oxide are 2x = 16,880 and 2x = 44,600 or corresponding to the gravity unit 004 and the gravity unit 106 respectively and are crystal characteristics. According to the SERS analysis, the maximum picks in the D and G bands of the graphene oxide-linked bullet are 1450 and 1670 cm-1 respectively. The graphene oxide BET surface area is 21.3 m2/g, the hole volume is 3.98 nm, and the bullet has been observed to enter the graphene oxide surface and internal layers and to be kept on the surface. Adsorption was found to be a result of connection with organic rings C=C/C-C, C-O, C-OH and C=O. The results of the TEM analysis showed that the surface layers of graphene oxide were pre-adsorption layers, while after the adsorption process graphene oxide became global particles. Optimal operating conditions for maximum bullet adsorption performance (9.99%) (grafen oxide concentration 1.8 mg/L, temperature=18oC, contact time 28 minutes, pH=8,5) have been determined. Because the low pH is too high, the H+ ions have low adsorption capabilities. The graphene oxide adsorption of the bullet is at low temperature, adsorption is blocked at high temperature. The graphene oxide adsorption capacity of the bullet is 320 mg/g. Adsorption kinetics, the false first-step kinetic model, and the adsorption isothermia, conforms to the Freundlich model. Graphene oxide is a very effective adsorbent, with the maximum shot output productivity achieved in 8 consecutive uses of 99%.

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