%0 Journal Article %T Mg-Al LDH and Calcined LDH: Green Nanocatalysts for wet peroxide oxidation of phenol in wastewater %J Journal of Water and Environmental Nanotechnology %I Iranian Environmental Mutagen Society %Z 2476-7204 %A Samandari, Masoud %A Tagva Manesh, Afshin %A Hosseini, Seyed Ali %A Mansouri, Sakineh %D 2021 %\ 01/01/2021 %V 6 %N 1 %P 72-80 %! Mg-Al LDH and Calcined LDH: Green Nanocatalysts for wet peroxide oxidation of phenol in wastewater %K Mg-Al LDH %K Phenol %K wet peroxide oxidation %K Mixed metal oxide %K Optimization %R 10.22090/jwent.2021.01.007 %X The catalytic wet peroxide oxidation (CWPO) of phenol from wastewater using Mg-Al LDH and calcined LDH at 500 ºC was investigated. The LDH was synthesized by co-precipitation and characterized by XRD, FTIR, SEM, EDS and BET. XRD result showed that during calcination of LDH at 500 ºC, LDH decomposed to the mixed oxide. The SEM images approved Mg-Al LDH comprised of flakes and the calcined LDH comprised of spherical nanoparticles. BET results indicated the specific surface area of 100.2 and 86.3 m2.g-1 for pure LDH and calcined LDH, respectively. The process was optimized by one factor at a time method and considering four process factors i.e. reaction temperature, peroxide dosage, initial phenol concentration, and reaction time. The optimum conditions resulted at initial phenol concentration of 100 ppm, reaction temperature of 60 ºC, with peroxide volume of 3 mL and time on stream of 45 min over calcined LDH with maximum 85% removal of phenol. On the pure LDH, the maximum phenol removal (79%) resulted at peroxide volume of 2.5 mL at 55 min. The study concluded that the calcined Mg-Al LDH due to synergistic effect of MgO and Mg-Al mixed oxide showed higher catalytic activity despite a relatively low surface area. %U https://www.jwent.net/article_243083_c48c68e64eb95cafde3d2a661db51065.pdf