Duplicate Confluence Precipitation Technology Processing Desulphurization Dust Removal Actual Waste Water Experimental Study

Yun Xia Gao; Xue Min Dai; Li Yao; Guo Ying Nan

doi:10.4028/www.scientific.net/AMR.986-987.709

Paper Titles

Summary on Wind Speed Distribution and its Parameter Estimation
p.689

Modeling and Uncertainty Estimation of Wind Power Curve Based on Recorded Field Data
p.694

Application of PSO in the Optimization of Nuclear Power Unit’s Heat Regenerative System
p.698

Calculation of Capacitance and Inductance Parameters of Transformer Winding under very Fast Transient Overvoltage
p.702

Duplicate Confluence Precipitation Technology Processing Desulphurization Dust Removal Actual Waste Water Experimental Study
p.709

Numerical Simulation on U(VI) in Uranium Tailing Impoundment Affected by Acid Rain
p.713

Petrological, Geochronological and Geochemical Constraints on Hot Dry Rock Geothermal Applications
p.719

Research on Reservoir Characteristics in San Zhao Peripheral Zone
p.722

Study on Coal’s Green Mining Technology Roadmap of Jurassic Coalfield in Northern Shaanxi
p.725

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 986-987Duplicate Confluence Precipitation Technology...

Duplicate Confluence Precipitation Technology Processing Desulphurization Dust Removal Actual Waste Water Experimental Study

Abstract:

In order to discuss the treatment performance of wastewater from desulphurization precipitator by settling technique of compound flow, the field test rendered the effluents of integrated desulfurization precipitator as the handing objects. The results show that the critical load of the sediment separator is 4mm/s. When the surface load is less than or equal to 4 mm / s, the turbidity of effluent is less then 10 degrees and the maximum is less then 18.2 degrees. The effect of hydraulic load impact on the water treatment system is greater than that of pH and SS of inlet. The treatment efficiency of field test is equivalent that of laboratory simulation.

You might also be interested in these eBooks

Energy Research and Power Engineering 2014

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 986-987)

Pages:

709-712

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.986-987.709

Citation:

Cite this paper

Online since:

July 2014

Authors:

Yun Xia Gao*, Xue Min Dai, Li Yao, Guo Ying Nan

Keywords:

Desulphurization Precipitator, Impact, Settling Technique of Compound Flow, Surface Load

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Yumin An, Ning Kang. Industrial Boiler Dust Removal Mechanism in Wet Cyclone and Waste Water Chemical Coagulation, Environmental Technology, 1994, 16(2) pp.24-26.

Google Scholar

[2] Xiaojun Wang, Jin Xiao. Flocculant in the Treatment of Boiler Dedusting Ash Washing Wastewater by Modified Cationic Natural Polymer, Guangdong Chemical, 1990, 25(3)pp.33-34.

Google Scholar

[3] Rulu Zhou, Zhongquan Guo, Jianguo Fang. Experimental Study on Reuse Wastewater by Using Small and Medium-Sized Coal-fired Boiler Technology. Coal Mine Environmental Protection, 2003, 12(3) pp.17-19.

Google Scholar

[4] Jingjin Liu, Zhuxin Chen, Huiying Zhang. Application of the Boiler Slag in the Wet Dust Wastewater Removal Treatment, Industrial Safety and Dustproof, 2001, 27(5)pp.14-16.

Google Scholar

[5] Jingjin Liu, Application of Quartz Microporous Ceramic in the Boiler Wet Dust Removal in Wastewater, Pollution Prevention Technique, 1996, 9(4) pp.230-232.

Google Scholar

[6] Zhiyi Ma. In Dealing with A Case of Printing and Dyeing Wastewater, Water Supply and Drainage, 1995, 13(11) pp.24-25.

Google Scholar

[7] Hongfeng Ding, Shigang Yang, Leifeng Han etc. Boiler Wastewater Treatment and Reuse of Process Design, Marine Meteorological and Hydrological Instrument, 2002, 15(2) pp.52-54.

Google Scholar

[8] Guoying Nan, Lin Li, Sun Dongtao and etc. Industrial Coal-fired Boiler Desulphurization and Dust Removal Wastewater Quality Characteristics and Treatment Strategy, In the Fourth Conference on Environmental Protection and Environmental Engineering, Chengdu, 2004 pp.98-302.

Google Scholar