College of Science, Donghua University Shanghai, 201620, PR China.
College of Environmental Science and Engineering, Donghua University Shanghai, 201620, PR China.
Chemosphere. 2022 Feb;288(Pt 3):132664. doi: 10.1016/j.chemosphere.2021.132664. Epub 2021 Oct 25.
Combing with photo-catalysis and photo-catalyst, a surface dielectric barrier discharge (SDBD) reactor with a mesh electrode was applied for toluene degradation and a high mineralization was achieved. The degradation performance comparison between SDBD reactors with a mesh and a spring electrode was carried out as well. A significant improvement in carbon balance and CO selectivity were obtained in mesh SBDB reactor compared with that of spring's one. For instance, when only plasma was applied, the carbon balance and CO selectivity of mesh SDBD reactor were 84% and 42.6%, while only 64.5% and 31.8% in spring one, the carbon balance and CO selectivity were improved by 30.3% and 34% at SIE of 300 J L, respectively. Synergistic effects of photo-catalysis and photo-catalyst were conducted with a 254 nm UV lamp and TiO deposited on the mesh electrode by atmospheric pressure (AP) plasma technology. The results showed that TiO and UV irradiation both presented promoting effect on toluene degradation in SDBD reactor with mesh electrode. According to the experimental results, the carbon balance rose to 89.5% and 93.9% at SIE of 300 J L, when UV or TiO was applied. With the application of TiO and UV together, a highest carbon balance of 95.9% was obtained at the same SIE. At the same SIE, the CO selectivity was promoted by 42.8% or 55.3% with the application of UV or TiO, and the promotion finally reached at 59.1% when TiO and UV were applied together. Additionally, the degradation efficiency of toluene was also enhanced with the introduction of TiO and UV irradiation. Increases in toluene degradation efficiency of 19. 7% and 26.8% were obtained at SIE of 300 J L, respectively. When both TiO and UV were applied, the enhancement could rise to 41.6%.
采用带有网状电极的介质阻挡放电(SDBD)反应器,结合光催化和光催化剂,用于甲苯降解,实现了高矿化度。还进行了带有网状和螺旋电极的 SDBD 反应器之间的降解性能比较。与螺旋电极的相比,在网状 SBDB 反应器中,碳平衡和 CO 选择性得到了显著提高。例如,当仅施加等离子体时,网状 SDBD 反应器的碳平衡和 CO 选择性分别为 84%和 42.6%,而螺旋电极的仅为 64.5%和 31.8%,在 SIE 为 300 J/L 时,碳平衡和 CO 选择性分别提高了 30.3%和 34%。通过大气压(AP)等离子体技术在网状电极上沉积 254nm UV 灯和 TiO,进行光催化和光催化剂的协同作用。结果表明,TiO 和 UV 辐射都对带有网状电极的 SDBD 反应器中甲苯的降解具有促进作用。根据实验结果,在 SIE 为 300 J/L 时,当 UV 或 TiO 施加时,碳平衡分别上升到 89.5%和 93.9%。当 TiO 和 UV 一起应用时,在相同的 SIE 下,获得了最高的碳平衡 95.9%。在相同的 SIE 下,当应用 UV 或 TiO 时,CO 选择性分别提高了 42.8%或 55.3%,当 TiO 和 UV 一起应用时,提高了 59.1%。此外,引入 TiO 和 UV 照射也提高了甲苯的降解效率。在 SIE 为 300 J/L 时,甲苯的降解效率分别提高了 19.7%和 26.8%。当同时应用 TiO 和 UV 时,增强幅度可提高到 41.6%。
