Effect of F, V and Mn co-doping on the catalytic performance of TiO<sub>2</sub>-pillared bentonite in the photocatalytic denitration

WANG Shu-qin; LI Jin-meng; LIU Wen-bo

Volume 48 Issue 9

Sep. 2020

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Article Navigation > Journal of Fuel Chemistry and Technology > 2020 > 48(9): 1131-1139

WANG Shu-qin, LI Jin-meng, LIU Wen-bo. Effect of F, V and Mn co-doping on the catalytic performance of TiO2-pillared bentonite in the photocatalytic denitration[J]. Journal of Fuel Chemistry and Technology, 2020, 48(9): 1131-1139.

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WANG Shu-qin, LI Jin-meng, LIU Wen-bo. Effect of F, V and Mn co-doping on the catalytic performance of TiO₂-pillared bentonite in the photocatalytic denitration[J]. Journal of Fuel Chemistry and Technology, 2020, 48(9): 1131-1139.

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Effect of F, V and Mn co-doping on the catalytic performance of TiO₂-pillared bentonite in the photocatalytic denitration

1.
Hebei Key Lab of Power Plant Flue Gas Multi-Pollutants Control, Department of Environmental Science and Engineering, North China Electric Power University, Baoding 071003, China
2.
Key Laboratory of Regional Energy System Optimization of Ministry of Education, North China Electric Power University, Beijing 100084, China

Funds:

The project was supported by the Joint Funds of National Key R & D Program of China 2018YFB060420103

National Natural Science Foundation of China 51476056

More Information

Corresponding author: WANG Shu-qin, E-mail:wsqhg@163.com
Received Date: 2020-07-01
Rev Recd Date: 2020-08-14

Available Online: 2021-01-23

Publish Date: 2020-09-10

Abstract

Abstract

F, V and Mn co-doped TiO₂-pillared bentonite was prepared by the sol-gel method and characterized by XRD, nitrogen sorption, UV-vis spectroscopy, SEM, etc.; its performance in the photocatalytic denitration of NO was investigated under visible light irradiation at room temperature. The results indicate that the photocatalytic denitration efficiency of F-V-Mn co-doped TiO₂-pillared bentonite for NO at a concentration of 661 μg/m³ is approximately 100%; when the concentration of NO increases to 1657 μg/m³, the photocatalytic efficiency decreases to 81.9%, which is however 33.8% higher than that over the unpillared F-V-Mn co-doped TiO₂. The reaction rate constant over the F-V-Mn co-doped TiO₂-pillared bentonite is twice as high as that over the V-Mn co-doped TiO₂ pillared bentonite; moreover, the F-V-Mn co-doped TiO₂-pillared bentonite also displays improved resistance against water and SO₂ poisoning. TiO₂ pillars can not only retain the flaky crystal structure of bentonite, but also increase the distance between bentonite layers from 0.667 to 0.710 nm and enhance the adsorption capacity. Meanwhile, the doping elements can inhibit the growth of TiO₂ rutile and reduce the band gap of TiO₂, which is effective in improving the response to visible light, prolonging the service life, and broadening the application range of TiO₂ for the photocatalytic denitration.
- Co-doped TiO₂,
- pillared bentonite,
- NO,
- photocatalysis,
- denitration

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References(27)

References

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