Study on test of coal co-firing for 600MW ultra supercritical boiler with four walls tangential burning

Wu Ying; Zhong Yong-lu; Yin Guo-mingi

doi:10.1051/e3sconf/20183801006

All issues

Volume 38 (2018)

E3S Web Conf., 38 (2018) 01006

References

Open Access

Issue		E3S Web Conf. Volume 38, 2018 2018 4^th International Conference on Energy Materials and Environment Engineering (ICEMEE 2018)


Article Number		01006
Number of page(s)		5
Section		Environmental Science and Environmental Engineering
DOI		https://doi.org/10.1051/e3sconf/20183801006
Published online		04 June 2018

WANG Wenhuan, PAN Bingchao, et al. Analysis of the Economy and Environmental Protection Features Based on Blending Lignite in Coal-fired Boiler, Boiler Technology, 2014, 45(2): 67-71. [Google Scholar]
CHEN Guodong, YUAN Yichao, WANG Bo. Application of Power Plant Boiler Blended Coal Combustion Technology, Boiler Technology, 2014, 45(5): 53-57. [Google Scholar]
WANG Lingling, LU Zhimin, et al. Thermo-gravimetric study on dynamic characters in combustion reaction of Indonesia coal blended with bituminous coal. Thermal Power Generation, 2009, 38(3): 69-71. [Google Scholar]
LIU Jingyan, WANG Changan, et al. Investigation on Coal Properties and Combustion Characteristics of Blended Coals, Boiler Technology, 2012, 43(2): 37-42. [Google Scholar]
WU Ying, CHEN Linguo, LI Haishan, et al. Study on test of coal co-firing for 700MW supercritical once-through. Power System Engineering, 2014, 30(3): 24-26. [Google Scholar]
HU Rongzu, SHI Qizhen, et al. Thermal analysis kinetics[M]. The Science Publishing Company, 2001, 12-13. [Google Scholar]
ZENG Lingda, CHEN Qijuan, XIONG Jie, et al. Thermogravimetric test on combustion characteristics of blend coal and type selection suggestions of 680MW ultra-supercritical boiler[J]. Journal Of Power Engineering, 2008, 28(5): 672-676. [Google Scholar]
LOU Bo, WANG Xiaocong. Thermogravimetric experimental study of mixed combustion of sewage sludge and coal [J]. Journal of Engineering for Thermal Energy and Power, 2011, 26(1): 114-116. [Google Scholar]
HEN Bingyun, XUN Hua, HAN Jianchun. Analysis of combustion characteristics of the mixture of coal washing and coal gangue[J]. Journal of Engineering for Thermal Energy and Power, 2011, 26(5): 571-575. [Google Scholar]
XIAN Xiaohong, DU Yungui, ZHANG Guanghui. Combustion characteristics of coal blending by TG-DTG/DTA [J]. Coal Conversion, 2011, 34(3): 67-70. [Google Scholar]
XIANG Yi, ZHAO Weidong, et al. Thermogravimetric experiments and reaction kinetics analysis on combustion of indonesia lignite and shanxi bituminous coal. Thermal Power Generation, 2015, 44(11): 14-19. [Google Scholar]
GONG Dehong, ZHANG Zhongxiao, et al. Effects of pulverizing method and oxygen content on combustion characteristics of mixed coal and the kinetic analysis. Thermal Power Generation, 2016, 45(10): 40-49. [Google Scholar]
CHANG Jiaxing, YANG Zhongcan. Study on Zhundong Coal’s Ash Fouling Indicator to Ensure Safe Operation of Boilers, Boiler Technology, 2013, 44(6): 17-19. [Google Scholar]
MAO Xiaofei, WU Ying, ZENG Guofang, et al. Experimental research on blended coal combustion in a 700MW unit boiler. Thermal Power Generation, 2014, 43(5): 69-74. [Google Scholar]
DUAN Xuenong, ZHU Guangming, JIAO Qingfeng, et al. Research and practice of blended coal combustion technology in power plant boiler[J]. Electric Power, 2008, 41(6): 51-54. [Google Scholar]
ZHOU Zhen, LIU Liang, YAN Xiaozhong. Adjustment test and analysis of off-design coal combustion of 1025t/h boiler, Power System Engineering, 2008, 24(4): 35-38. [Google Scholar]
WANG Qunying, SU Pan, et al. Influence of blending lignite with bituminous coal on coal feeding safety and operational costs for a 660 MW unit boiler. Thermal Power Generation, 2015(10):9-14. [Google Scholar]
HUA Xiaoyu, WANG Ruikun, et al. Anti-balancing efficiency and its uncertainty analysis of boiler burning mixed coal according to ASME and GB standard. Thermal Power Generation, 2016, 45(3): 34-40. [Google Scholar]

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[1] WANG Wenhuan, PAN Bingchao, et al. Analysis of the Economy and Environmental Protection Features Based on Blending Lignite in Coal-fired Boiler, Boiler Technology, 2014, 45(2): 67-71. [Google Scholar]

[2] CHEN Guodong, YUAN Yichao, WANG Bo. Application of Power Plant Boiler Blended Coal Combustion Technology, Boiler Technology, 2014, 45(5): 53-57. [Google Scholar]

[3] WANG Lingling, LU Zhimin, et al. Thermo-gravimetric study on dynamic characters in combustion reaction of Indonesia coal blended with bituminous coal. Thermal Power Generation, 2009, 38(3): 69-71. [Google Scholar]

[4] LIU Jingyan, WANG Changan, et al. Investigation on Coal Properties and Combustion Characteristics of Blended Coals, Boiler Technology, 2012, 43(2): 37-42. [Google Scholar]

[5] WU Ying, CHEN Linguo, LI Haishan, et al. Study on test of coal co-firing for 700MW supercritical once-through. Power System Engineering, 2014, 30(3): 24-26. [Google Scholar]

[6] HU Rongzu, SHI Qizhen, et al. Thermal analysis kinetics[M]. The Science Publishing Company, 2001, 12-13. [Google Scholar]

[7] ZENG Lingda, CHEN Qijuan, XIONG Jie, et al. Thermogravimetric test on combustion characteristics of blend coal and type selection suggestions of 680MW ultra-supercritical boiler[J]. Journal Of Power Engineering, 2008, 28(5): 672-676. [Google Scholar]

[8] LOU Bo, WANG Xiaocong. Thermogravimetric experimental study of mixed combustion of sewage sludge and coal [J]. Journal of Engineering for Thermal Energy and Power, 2011, 26(1): 114-116. [Google Scholar]

[9] HEN Bingyun, XUN Hua, HAN Jianchun. Analysis of combustion characteristics of the mixture of coal washing and coal gangue[J]. Journal of Engineering for Thermal Energy and Power, 2011, 26(5): 571-575. [Google Scholar]

[10] XIAN Xiaohong, DU Yungui, ZHANG Guanghui. Combustion characteristics of coal blending by TG-DTG/DTA [J]. Coal Conversion, 2011, 34(3): 67-70. [Google Scholar]

[11] XIANG Yi, ZHAO Weidong, et al. Thermogravimetric experiments and reaction kinetics analysis on combustion of indonesia lignite and shanxi bituminous coal. Thermal Power Generation, 2015, 44(11): 14-19. [Google Scholar]

[12] GONG Dehong, ZHANG Zhongxiao, et al. Effects of pulverizing method and oxygen content on combustion characteristics of mixed coal and the kinetic analysis. Thermal Power Generation, 2016, 45(10): 40-49. [Google Scholar]

[13] CHANG Jiaxing, YANG Zhongcan. Study on Zhundong Coal’s Ash Fouling Indicator to Ensure Safe Operation of Boilers, Boiler Technology, 2013, 44(6): 17-19. [Google Scholar]

[14] MAO Xiaofei, WU Ying, ZENG Guofang, et al. Experimental research on blended coal combustion in a 700MW unit boiler. Thermal Power Generation, 2014, 43(5): 69-74. [Google Scholar]

[15] DUAN Xuenong, ZHU Guangming, JIAO Qingfeng, et al. Research and practice of blended coal combustion technology in power plant boiler[J]. Electric Power, 2008, 41(6): 51-54. [Google Scholar]

[16] ZHOU Zhen, LIU Liang, YAN Xiaozhong. Adjustment test and analysis of off-design coal combustion of 1025t/h boiler, Power System Engineering, 2008, 24(4): 35-38. [Google Scholar]

[17] WANG Qunying, SU Pan, et al. Influence of blending lignite with bituminous coal on coal feeding safety and operational costs for a 660 MW unit boiler. Thermal Power Generation, 2015(10):9-14. [Google Scholar]

[18] HUA Xiaoyu, WANG Ruikun, et al. Anti-balancing efficiency and its uncertainty analysis of boiler burning mixed coal according to ASME and GB standard. Thermal Power Generation, 2016, 45(3): 34-40. [Google Scholar]