Study on Acceleration of Aqueous Catalyzed Oxidation to Biological Trickling Filter of SO2&amp;NOX in Flue Gas

Yan Mei Lei; Jie Wang; Pei Shi Sun

doi:10.4028/www.scientific.net/AMR.1010-1012.906

Paper Titles

The Application of Information Retrieval in Governance Decision of Water Bloom Based on Decision Tree and CPN Neural Network
p.885

The Study on the New Technology of Exhaust Gas Cascade Utilization from Electrolytic Aluminum Industry
p.891

THF Removal from Polluted Air in Aerobic Biotrickling Filter Inoculated with Microbactrium oxydans DDH-1
p.895

A Classification Method of Projection Pursuit Based on Population Migration Algorithm for Fly Ash
p.900

Study on Acceleration of Aqueous Catalyzed Oxidation to Biological Trickling Filter of SO₂&NO_X in Flue Gas
p.906

Absorption Performance of Rotating Packed Bed with Gas-Liquid Distribution Inducer
p.913

Earthworms Decomposing and Recycling the Urban Household Garbage
p.917

Effect of Different Mass Ratios of Straws and Vegetable Wastes on Co-Composting
p.922

Effects of Transition Metals and Rare Earths on Iron-Carbon Micro Electrolysis Degrading Dyeing Effluent
p.928

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1010-1012Study on Acceleration of Aqueous Catalyzed...

Study on Acceleration of Aqueous Catalyzed Oxidation to Biological Trickling Filter of SO₂&NO_X in Flue Gas

Abstract:

In this paper, Fe²⁺、Mn²⁺、Zn²⁺、Al³⁺ were joined in the biological trickling filter circulation fluid. The result indicated that catalyzed oxidation and the biological methods simultaneously purified SO₂ and NOx of the flue, the flow amount of import gas was more obvious than the other SO₂ and NOx gas purification effect influence. The SO₂ and NOx purification mechanism of aqueous catalyzed oxidation and biological law was discussed.

You might also be interested in these eBooks

Environmental Protection and Resources Exploitation II

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1010-1012)

Pages:

906-910

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1010-1012.906

Citation:

Cite this paper

Online since:

August 2014

Authors:

Yan Mei Lei, Jie Wang, Pei Shi Sun

Keywords:

Aqueous Catalyzed Oxidation, Biological Trickling Filter, NOx, Purification Mechanism, SO₂

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Sun Pei-shi, Ning ping, Song Wen-biao. Research of phase catalytic purification of low concentrations of SO2 smelter gas. Environmental Science, (1996), 17 (4): 4-6.

Google Scholar

[2] Wang Jie, Sun Pei-Shi, He Xiao-Rong, etal. Experimental Study on Reducing SO2&NOx in Flue Gas by Aqueous Catalytic Oxidation. Journal of Yunnan University, (2006), 28(6): 526-529.

Google Scholar

[3] Wang Heng-Ying, Sun Pei-Shi, Wang Jie, etal. Removal of SO2 and NOx Simultaneously from Flue Gas by the Method of Liquid -phase Catalyze-microorganism. Journal of WuHan University of Technology, (2010), 32(7).

Google Scholar

[4] Ma Shuang-chen, Zhao Yi, Zheng Fu-ling. Study on reducing in flue gas by aqueous catalytic oxidation. Dept of Environmental Science. (2001), 21: 33-37.

Google Scholar

[5] Sun Peishi, Yeung Wan, Huang Ruohua. Research on basic of techniques and applied of biological about low concentrations of organic waste gas purification. Yunnan science and Technology Press, (2004).

Google Scholar

[6] Deng Jing-fa, Fan Kang-nian. Physical chemistry . Higher Education Press, (1993).

Google Scholar

[7] Ottengrf S P P. Kinetics of organic compound removal from waste gases with a biological filter, Bioteahnology and Bioengineering, (1983), 25(5): 3089~3102.

DOI: 10.1002/bit.260251222

Google Scholar

[8] Counce R M, Crawford D B. Proformance Models for Nox Absorbers/Strippers. Environ Progr, (1990), 9(2): 87~92.

DOI: 10.1002/ep.670090215

Google Scholar

[9] David Littlejohn, Yizhong Wang, Shihger Chang. Oxidation of Aqueous Sulfite ion by Nitrogen Dioxide. Environ. Sci. Technol, (1993), 27: 2162~2167.

DOI: 10.1021/es00047a024

Google Scholar