Removal of aluminum from alkaline aqueous solution by adsorption on Degussa P25 TiO₂ and vermiculite concrete‐supported ferric oxyhydroxide

Abstract: The current investigation on aluminum adsorption from an aqueous solution originated from the need to implement a water treatment technology that would decrease the prohibitive aluminum concentrations in the groundwater of the Khibiny Alkaline Massif (Kola Peninsula), which is limiting the use of this water source as a source for the household water supply in the area. TiO2 and vermiculite concrete‐supported ferric oxyhydroxide (VC) were used as adsorbents to remove aluminum from the alkaline aqueous solution,… Show more

“…The average grain size of the nanoparticles was estimated by using the x-ray line augmentation technique together with the Scherrer (2) [48][49][50] . The estimated size for the anatase (110) and rutile (101) respectively were about 23 nm and 39 nm, which was close to what has been reported 50,51 . The estimated particle size and crystal structure signify scattering rising from large crystals produce Bragg peaks as a function of the reflection angle [48][49][50][51] .…”

“…The estimated size for the anatase (110) and rutile (101) respectively were about 23 nm and 39 nm, which was close to what has been reported 50,51 . The estimated particle size and crystal structure signify scattering rising from large crystals produce Bragg peaks as a function of the reflection angle [48][49][50][51] . Figure 3 presents the SEM image (a and b) of the TiO 2 nanoparticle morphology before and after the experiment, as well as the EDS image (c).…”

“…Likewise, the estimated smaller and larger particle size appears to be about 23 and 39 nm respectively 47,48 . This suggest that the smaller particles are the anatase whereas the larger particles are rutile as established by other authors [47][48][49][50][51] . Figure 4 shows the EDS peaks (a) with its corresponding elemental distribution (b) deposited on the photocatalyst slurry.…”

“…Also, the broad diffraction peak at 2θ = 15-25° in the XRD (Fig. 1) might also be the amorphous silica layer 48,51 . This is likely to rapture an amount of the TiO 2 photocatalyst reactive site from oxidation and might suppress the photocatalytic efficiency 48,50,52 .…”

“…3c) signifies agglomeration occurrence during mineralization 50,51 . From the EDS image (a-peaks; b-table), it was certain the chemical composition in the wastewater can suppress the TiO 2 photocatalyst 51,52 . The appreciable increasing order of compounds presence were as follows:…”

Photocatalytic degradation of oily waste and phenol from a local South Africa oil refinery wastewater using response methodology

“…The average grain size of the nanoparticles was estimated by using the x-ray line augmentation technique together with the Scherrer (2) [48][49][50] . The estimated size for the anatase (110) and rutile (101) respectively were about 23 nm and 39 nm, which was close to what has been reported 50,51 . The estimated particle size and crystal structure signify scattering rising from large crystals produce Bragg peaks as a function of the reflection angle [48][49][50][51] .…”

“…The estimated size for the anatase (110) and rutile (101) respectively were about 23 nm and 39 nm, which was close to what has been reported 50,51 . The estimated particle size and crystal structure signify scattering rising from large crystals produce Bragg peaks as a function of the reflection angle [48][49][50][51] . Figure 3 presents the SEM image (a and b) of the TiO 2 nanoparticle morphology before and after the experiment, as well as the EDS image (c).…”

“…Likewise, the estimated smaller and larger particle size appears to be about 23 and 39 nm respectively 47,48 . This suggest that the smaller particles are the anatase whereas the larger particles are rutile as established by other authors [47][48][49][50][51] . Figure 4 shows the EDS peaks (a) with its corresponding elemental distribution (b) deposited on the photocatalyst slurry.…”

“…Also, the broad diffraction peak at 2θ = 15-25° in the XRD (Fig. 1) might also be the amorphous silica layer 48,51 . This is likely to rapture an amount of the TiO 2 photocatalyst reactive site from oxidation and might suppress the photocatalytic efficiency 48,50,52 .…”

“…3c) signifies agglomeration occurrence during mineralization 50,51 . From the EDS image (a-peaks; b-table), it was certain the chemical composition in the wastewater can suppress the TiO 2 photocatalyst 51,52 . The appreciable increasing order of compounds presence were as follows:…”

Photocatalytic degradation of oily waste and phenol from a local South Africa oil refinery wastewater using response methodology

Hydrogen production from aqueous triethanolamine solution using Eosin Y-sensitized ZnO photocatalyst doped with platinum