کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
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149528 | 456434 | 2012 | 7 صفحه PDF | دانلود رایگان |
Oxygen-vacant TiO2 (TiO2−x) nanoparticles and TiO2−x/activated carbon fiber (ACF) composites were developed via a N2/Ar/He thermal plasma system. The TiO2−x nanoparticles and TiO2−x/ACF composites were characterized with TEM, XRD, UV–Vis, ESEM and N2 adsorption isotherms. The removal effectiveness of TiO2−x/ACF for gaseous Hg0 at ppb concentration level and various conditions was subsequently evaluated. The experimental results indicated that the formed TiO2−x nanoparticles had a size within 10–40 nm and a mixture of anatase and rutile phases. The TiO2−x formed at 7% N2 concentration had an evident red-shift in wavelength absorption. The ESEM and N2 adsorption results suggested that the synthesized TiO2−x nanoparticles unevenly deposited on the ACF surface causing a decrease in total and micropore surface areas/volumes. Hg breakthrough tests revealed that TiO2−x/ACF composites had a greater Hg removal under UV or visible-light irradiation than those obtained in the dark condition. The presence of O2 up to 12% greatly enhanced the Hg removal, implying the positive effects of catalytic oxidation. However, moisture reduced Hg removal performance, especially when visible-light irradiation was applied. These results revealed the competitive adsorption between Hg species and H2O and the physisorption nature of Hg species on the light-induced hydrophilic TiO2−x/ACF surface.
TiO2−x/ACF composites were synthesized using N2/He/Ar thermal plasma. Hg0 removal by the TiO2−x/ACF was enhanced by light radiation and O2 but reduced by competitive adsorption from moisture..Figure optionsDownload as PowerPoint slideHighlights
► TiO2−x/ACF composites were developed via a N2/Ar/He thermal plasma system.
► TiO2−x had a size within 10–40 nm and a mixture of anatase and rutile phases.
► TiO2−x/ACF composites had a greater Hg removal under UV than VL irradiation.
► Presence of O2 enhanced the Hg removal of TiO2−x/ACF.
► Moisture reduced Hg removal performance of TiO2−x/ACF.
Journal: Chemical Engineering Journal - Volumes 200–202, 15 August 2012, Pages 18–24