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A Green Desulfurization Technique: Utilization of Flue Gas SO2 to Produce H2 via a Photoelectrochemical Process Based on Mo-Doped BiVO4

机译：一种绿色脱硫技术：利用烟道气中的SO2通过基于Mo掺杂的BiVO4的光电化学过程产生H2

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A green photoelectrochemical (PEC) process with simultaneous SO2 removal and H2 production has attracted an increasing attention. The proposed process uses flue gas SO2 to improve H2 production. The improvement of the efficiency of this process is necessary before it can become industrial viable. Herein, we reported a Mo modified BiVO4 photocatalysts for a simultaneous SO2 removal and H2 production. And the PEC performance could be significantly improved with doping and flue gas removal. The evolution rate of H2 and removal of SO2 could be enhanced by almost three times after Mo doping as compared with pristine BiVO4. The enhanced H2 production and SO2 removal is attributed to the improved bulk charge carrier transportation after Mo doping, and greatly enhanced oxidation reaction kinetics on the photoanode due to the formation of

{SO}_{3}^{2 -}

after SO2 absorption by the electrolyte. Due to the utilization of SO2 to improve the production of H2, the proposed PEC process may become a profitable desulfurization technique.

机译：同时去除SO2和产生H2的绿色光电化学（PEC）工艺吸引了越来越多的关注。拟议的过程使用烟道气SO2来提高H2的产生。在使其成为工业可行之前，必须提高该过程的效率。本文中，我们报道了Mo改性的BiVO4光催化剂可同时去除SO2和产生H2。通过掺杂和去除烟道气，可以显着提高PEC性能。 Mo掺杂后，与原始BiVO4相比，H2的释放速率和SO2的去除率几乎提高了三倍。氢的产生和SO2去除的增强归因于Mo掺杂后改善的整体电荷载流子传输，并且由于形成了

SO32-。由于利用SO2改善了H2的产生，拟议的PEC工艺可能成为一种有益的脱硫技术。

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期刊名称 Frontiers in Chemistry
作者
Jin Han; Kejian Li; Hanyun Cheng; Liwu Zhang;
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作者单位

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年(卷),期 2017(5),-1
年度 2017
页码 114
总页数 9
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
hydrogen sulfur dioxide solar energy Photoelectrochemical (PEC) Mo-doped BiVO4;

机译：氢;二氧化硫;太阳能;光电化学（PEC）;Mo掺杂BiVO4;

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1. A Green Desulfurization Technique: Utilization of Flue Gas SO2 to Produce H2 via a Photoelectrochemical Process Based on Mo-Doped BiVO4 [J] . Han Jin, Li Kejian, Cheng Hanyun, Frontiers in Chemistry . 2017,第2期

机译：一种绿色脱硫技术：利用烟道气中的SO2通过基于Mo掺杂的BiVO4的光电化学过程生产H2
2. Trash to treasure: Use flue gas SO2 to produce H-2 via a photoelectrochemical process [J] . Han Jin, Cheng Hanyun, Zhang Liwu, Chemical engineering journal . 2018,第期

机译：垃圾到宝藏：使用烟气气体SO2通过光电化学过程生产H-2
3. Desulfurization performance of biotrickling filter on the removal of flue gas adsorbent produced by dual-alkali flue gas desulfurization process [J] . Zheng Tianlong, Wang Li, Wang Jianhua, Journal of water reuse and desalination . 2015,第1期

机译：生物滴滤池对脱除双碱法烟气脱硫过程中烟气吸附剂的脱硫性能
4. Study on Utilization Ratio of SO2 Sorbents in Semidry Flue Gas Desulfurization Technology [C] . Wang Wenlong, Xu Xiren, Ren Li, Asia-Pacific Power and Energy Engineering Conference;APPEEC 2009 . 2009

机译：半干法烟气脱硫中SO2吸附剂利用率的研究
5. Hydrothermal reaction of lime with fly ash to produce calcium silicates for dry flue gas desulfurization. [D] . Peterson, Joseph Roger. 1990

机译：石灰与粉煤灰的水热反应生成硅酸钙，用于干法烟气脱硫。
6. Photoelectrochemical device based on Mo-doped BiVO4 enables smart analysis of the global antioxidant capacity in food [O] . Lingnan Wang, Dongxue Han, Shuang Ni, 2015

机译：基于Mo掺杂BiVO4的光电化学装置可对食品中的全球抗氧化能力进行智能分析
7. A Green Desulfurization Technique: Utilization of Flue Gas SO2 to Produce H2 via a Photoelectrochemical Process Based on Mo-Doped BiVO4 [O] . Jin Han, Kejian Li, Hanyun Cheng, 2017

机译：绿色脱硫技术：利用mo掺杂BiVO4光电化学工艺利用烟气sO2生成H2
8. Microbial reduction of SO2 and NOx as a means of by-product recovery/disposal from regenerable processes for the desulfurization of flue gas. Technical progress report, September 11, 1992--December 11, 1992 [R] . Sublette, K. L. 1992

机译：微生物还原sO2和NOx，作为从可再生过程中回收/处理烟气脱硫的一种方法。技术进步报告，1992年9月11日 - 1992年12月11日

A Green Desulfurization Technique: Utilization of Flue Gas SO2 to Produce H2 via a Photoelectrochemical Process Based on Mo-Doped BiVO4

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