Study on Combustion Adjustment Characteristics of 50MW CFB Biomass-Fired Boiler in Zhanjiang Biomass Power Plant

Jiang Tao Fang; Jing Hui Song; Zhi Gang Zhan; Ji Li

doi:10.4028/www.scientific.net/AMR.608-609.242

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 608-609Study on Combustion Adjustment Characteristics of...

Study on Combustion Adjustment Characteristics of 50MW CFB Biomass-Fired Boiler in Zhanjiang Biomass Power Plant

Abstract:

Circulating Fluidized Bed (CFB) biomass-fired technology is emerging biomass utilization technology for its advantages of wide adaptability of fuels, stable combustion, low-pollutants emission, and high boiler efficiency. This paper first makes literature survey of on-site combustion adjustment and performance tests and analyzes main influenced factors on combustion adjustment for CFB biomass-fired boiler, including unit load, bed temperature, bed pressure, fuel characteristics, primary air, secondary air, air ratio, circulating ash. Then combustion adjustment characteristics are studied on the largest-scale biomass-fired power project in China - 2×50MW CFB biomass-fired power plant in Zhanjiang by Guangdong Yudean Group. Main influenced factors and principle problems of combustion adjustment tests such as unit load, bed temperature, fuel deflagration, oxygen content, and exhaust gas temperature are tested and analyzed. Optimized operation suggestions are proposed according to the combustion adjustment tests.

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Periodical:

Advanced Materials Research (Volumes 608-609)

Pages:

242-248

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.608-609.242

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Online since:

December 2012

Authors:

Jiang Tao Fang, Jing Hui Song, Zhi Gang Zhan, Ji Li

Keywords:

Biomass-Fired, Circulating Fluidized Bed, Combustion Adjustment

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References

[1] National Development and Reform Commission. Medium and long term development planning. (2007)

Google Scholar

[2] W. D. Hao, Z. H. Hu, X. G. Zhou, Y. Tian, X. H. Han: East China Electric Power. Vol. 37 (2009), p.176

Google Scholar

[3] Y. H. Li, L. J. Sun, Z. Tao, W. Y. Song, K. Y. Pang: Boiler Technology. Vol. 40 (2009), p.71

Google Scholar

[4] C. H. Guo, J. L. Yang, T. Y. Wu: China Electric Power Education. Vol. S2 (2009), p.402

Google Scholar

[5] K. Q. Huang, W. B. Liu: Journal of Shaoyang University (Science and Technology). Vol. 3 (2006), p.34

Google Scholar

[6] Y. Wang: Research of biomass direct combustion boiler operation and control. (Shandong University, China 2009)

Google Scholar

[7] L. J. Wang: Inner Mongolia Electric Power. Vol. 26 (2008), p.35

Google Scholar

[8] K. Luo, L. B. Liu: Hubei Electric Power. Vol. 33 (2009), p.45

Google Scholar

[9] Y. Niu: Study on commissioning of the 465t/h circulating fluidized bed boiler. (North China Electric Power University, China 2008)

Google Scholar

[10] S. L. Wang, Z. Liu, H. N. Jin, Q. Li: Power System Engineering. Vol. 26 (2010), p.51

Google Scholar

[11] J. G. Jiang, Y. L. Li, C. F. Zhang: Thermal Power Generation. Vol. 38 (2009), p.73

Google Scholar

[12] Boiler adjustment report of Guangdong Yudean Zhanjiang Biomass Power Plant. (2011)

Google Scholar