Optimal Operation on the Desulfurization System in the 480t/h CFB Boiler

Zhi Gang Li; Jin Li Chen; Jing Ji Li

doi:10.4028/www.scientific.net/AMR.518-523.2161

Paper Titles

Experimental Study on the Pollutants Release Characteristics During Combustion of Lean Coal with Different Coal Rank
p.2143

Far-Infrared Thermal Desorption of Sandy Soil and its Mechanism
p.2147

Low NOx Combustion Technologies for Power Plant
p.2151

Nutrients Removal from Secondary Effluent by Using Different Constructed Wetland Systems
p.2155

Optimal Operation on the Desulfurization System in the 480t/h CFB Boiler
p.2161

Optimization of Fenton Process for Removal Organic Substance in Landfill Leachate
p.2165

Reduction of Nitrogen and Phosphorus Content in Piggery Water with Algal Culture
p.2170

Research on Determination Technology of Trace Mercury in Rainwater
p.2174

Research on the Method of Odor Pollution Classification
p.2179

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 518-523Optimal Operation on the Desulfurization System in...

Optimal Operation on the Desulfurization System in the 480t/h CFB Boiler

Abstract:

This paper introduced the principle of inner-furnace desulfurization system of CFB boilers by injecting limestone, and investigated the factors of the desulfurization efficiency. The desulfurization efficiency and stability of 480t/h CFB boilers manufactured by DongFang Boiler (Group) Co., Ltd were greatly increased by retrofitting the limestone injection position from dense region to the down secondary-air inlet of the back-wall. The improvement was achieved by increasing the oxygen concentration as well as optimizing the temperature of the reaction zone.

You might also be interested in these eBooks

Advances in Environmental Science and Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 518-523)

Pages:

2161-2164

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.518-523.2161

Citation:

Cite this paper

Online since:

May 2012

Authors:

Zhi Gang Li, Jin Li Chen, Jing Ji Li

Keywords:

CFB Boiler, Desulfurization Efficiency, Desulfurization Stability, Limestone Injection Position

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] W. C. Zhao. Development of Domestic CFB Boilers as well as Relevant Experience at Home and Abroad. Power Equipment, 2007, 21(6), 503~505.

Google Scholar

[2] L. S. Huang. Development and Current Situation of Large-scale Circulating Fluidized Bed Boiler in China. Jiangxi Science, 2009, 27(4), 608~613.

Google Scholar

[3] S. P. Wang, H. Y. Ma, L. Jiang. CFB Boiler Desulphurization Coal Power Plant Transformation Instance. Shanxi Energy and Conservation, 2010, 3, 30~34.

Google Scholar

[4] H.G. Jiao, Z. B. Hu. Discussion on the Detriment of Environment Pollution Caused by Coal Combustion. Coal Preparation Technology, 2004, 2, 3~6.

Google Scholar

[5] B. Li, Z. R. Wang. The Factors and Account of CFB Desulfurization Efficiency. Energy Conservation and Environmental Protection, 2003, 7, 41~43.

Google Scholar

[6] Q. S. Zhang, Y. C. Ma, X. L. Yu. The Existent Problems and Optimum Design Discussion of Inner Desulfurization System of CFB Boiler. China Plant Engineering, 2009, 2, 32~34.

Google Scholar

[7] Z. Huang, J. Z. Jiang, X. B. Sun et al. Research and Application of High Performance Desulfurization in CFB Boiler. Electric Power Technology, 2010, 19(6), 17~20.

Google Scholar

[8] N. Xue. Furnace Desulfurization Technology for CFB boilers. Fujian Energy Development and Conservation, 2003, 4, 15~18.

Google Scholar

[9] X. B. Xiao, H. R. Yang, J. F. Lv, G. X. Yue. Effect of the Solid Lateral Dispersion in the Dense Zone of CFB. Coal Conversion, 2003, 26(4), 55~59.

Google Scholar