Process optimization, characterization and economic evaluation of nanoparticles derived from galvanic sludge for photodegradation of 4-nitrophenol under natural sunlight

The United Arab Emirates has an average of 10 h of sunlight and is available almost throughout the year. This energy has a huge potential to be utilized in photodegrading wastewater. To engineer a sustainable photo -catalyst, the waste (galvanic sludge) obtained from the galvanization industry was utilized to degrade 4-nitrophe-nol under natural sunlight. Detailed morphological, chemical, and optical characterization of galvanic sludge (GS) was performed by UV-DRS, FESEM-EDX, XRD, XPS, PL, FTIR, and GC-MS. RSM-CCD was utilized for optimizing the three key parameters, such as pH, photocatalyst loading, and 4-nitrophenol concentration. The highest photodegradation efficiency of about 94.5% was obtained for a 4-nitrophenol concentration of 30 ppm with a photocatalyst loading of 0.02 g at a pH of 6 with 0.01 mL of H2O2. Based on the analysis of variance results, the R-2 value of the overall model was 98.1%, which indicated that the obtained model was well suited for degrading 4-nitrophenol. An economic evaluation was performed for applicability in the real world. For this photodegradation model, the cost of treatment was determined to be USD 17.5/m(3). To the best of our knowledge, for the first time we have innovatively used GS as an efficient photocatalyst for treating 4-nitrophenol.

Automated summary

The United Arab Emirates has abundant solar energy resources, suitable for photodegrading wastewater. The waste from the galvanization industry, galvanic sludge, was used as a photocatalyst to degrade 4-nitrophenol under natural sunlight. The galvanic sludge was characterized using various techniques, and the optimal conditions for degradation were determined through parameter optimization.