[1]杜智华,姚伟,方顺利,等.350 MW机组锅炉掺烧准东煤结渣问题分析[J].热力发电,2015,(11):109-113.
 DU Zhihua,YAO Wei,FANG Shunli,et al.Investigation on slagging problem occurred on a 350 MW boiler co-fring Zhundong coal[J].Thermal Power Generation,2015,(11):109-113.
点击复制

350 MW机组锅炉掺烧准东煤结渣问题分析

参考文献/References:

[1] 杨忠灿,姚伟.电厂锅炉变煤种掺烧问题研究[J].中国电力,2010,42(11):42-45.YANG Zhongcan,YAO Wei.Study on burning blending coals in coal-fired boilers of power plants[J].Electric Power,2010,42(11):42-45.
[2] 段学农,朱光明,姚斌,等.电厂锅炉混煤掺烧技术研究与实践[J].中国电力,2008,41(6):51-54.DUAN Xuenong,ZHU Guangming,YAO Bin,et al.Research and practice of blended coal combustion technology in power plant boiler[J].Electric Power,2008,41(6):51-54.
[3] 关云,关庆泽.浅析电厂锅炉混煤掺烧技术[J].中国新技术新产品,2013(11):154.GUAN Yun,GUAN Qingze.Analysis of power plant boiler mixing technology of coal combustion[J].New Technologies and Products,2013(11):154(in Chinese).
[4] 顾大钊,陈振龙,顾小愚.掺烧方式对神华煤结渣趋势的影响[J].煤质技术,17(1):62-64.GU Dazhao,CHEN Zhenlong,GU Xiaoyu.Impact on Shenhua coal's slagging tendency by mixed burning methods[J].Clean Coal Technology,17(1):62-64.
[5] 陶文铨.数值传热学[M].西安:西安交通大学出版社,2001:37-45.TAO Wenquan.Numerical heat transfer[M].Xi'an:Xi'an Jiaotong Univercity Press,2001:37-45(in Chinese).
[6] FLUENT Inc.FLUENT user's guide[M].Lebanon,USA.FLUENT Inc,2003.
[7] 方庆艳.超超临界锅炉磨煤机组合运行方式优化数值模拟[J].中国电机工程学报,2011,31(5):1-6.FANG Qingyan.Optimal simulation on the combination mode of mills for an ultra-supercritical utility boiler[C].Proceedings of the CSEE,2011,31(5):1-6.
[8] 汪小华,廖宏楷,方庆艳.DG420/13.7.Ⅱ2型无烟煤锅炉燃用混煤燃烧优化的数值模拟与试验研究[J].广东电力,2009,22(3):31-35.WANG Xiaohua,LIAO Hongkai,FANG Qingyan.Numerical simulation and experimental investigation on combustion optimization of DG420/13.7-Ⅱ 2 anthracite-fired boiler burning blended coal[J].Guangdong Electric Power,2009,22(3):31-35.
[9] Shtark P V,Stepanov Y V,Popova N K,et al.Industrial coking of coal batch without bituminous coal[J].Coke & Chemistry,2008,51(3):85-87.
[10] 周力行.湍流两相流与燃烧的数值模拟[M].北京:清华大学出版社,1991:28.ZHOU Lixing.Turbulent two-phase flow and combustion numerical simulation[M].Beijing:Tsinghua University Press,1991:28(in Chinese).
[11] 李瑞扬,吕薇,赵玉晓,等.六角切圆炉膛气流流动特性的数值模拟[J].哈尔滨工业大学学报,2001,33(3):410-413.LI Ruiyang,LYU Wei,ZHAO Yuxiao,et al.Numerical simulation of airflow characteristics in furnace[J].Journal of Harbin Institute of Technology,2001,33(3):410-413.
[12] 吴治永,李文彦.某新型旋流燃烧锅炉的数值模拟[J].现代电力,2004,21(1):11-16.WU Zhiyong,LI Wenyan.Numerical simulation for a new-style boiler featured with swirling combustor[J].Modern Electric Power,2004,21(1):11-16.
[13] 荆有印,于亚丽,方月兰.旋流煤粉燃烧器的气流组织和数值模拟[J].锅炉技术,2009,40(6):52-54.JING Youyin,YU Yali,FANG Yuelan.The numerical simulation and the flow field in the whirl burner of a pulverized coal fired boiler[J].Boiler Technology,2009,40(6):52-54.
[14] Patterson J H,Hurst H J.Ash and slag qualities of Australian bituminous coals for use in slagging gasifiers[J].Fuel,2000,79(13):1671-1678.

相似文献/References:

[1]杨忠灿,刘家利,何红光.新疆准东煤特性研究及其锅炉选型[J].热力发电,2010,(08):38.
 YANG Zhongcan,LIU Jiali,HE Hongguang.STUDY ON PROPERTIES OF ZHUNDONG COAL IN XINJIANG REGION AND TYPE-SELECTION FOR BOILERS BURNING THIS COAL SORT[J].Thermal Power Generation,2010,(11):38.
[2]常家星,杨忠灿,李尚华,等.480 t/h锅炉改烧准东煤改造[J].热力发电,2014,(03):116.
 CHANG Jiaxing,YANG Zhongcan,LI Shanghua,et al.Retrofitting for burning Zhundong coal for a 480 t/h boiler[J].Thermal Power Generation,2014,(11):116.
[3]王学斌,魏博,张利孟,等.温度和SiO2添加物对准东煤中碱金属的赋存形态及迁徙特性的影响[J].热力发电,2014,(08):84.
 WANG Xuebin,WEI Bo,ZHANG Limeng,et al.Effect of temperature and silicon additives on occurrence and transformation characteristics of alkali metal in Zhundong coal[J].Thermal Power Generation,2014,(11):84.
[4]傅勇强,汪华剑,李奎,等.燃用准东煤锅炉渣样形貌及矿物组成特征[J].热力发电,2015,(07):18.
 FU Yongqiang,WANG Huajian,LI Kui,et al.Experimental study on morphology and mineral composition of slag from a Zhundong coal-fired power plant[J].Thermal Power Generation,2015,(11):18.
[5]祁 慧,赵永椿,姚 斌,等.水洗脱除准东煤中水溶性钠的影响因素分析[J].热力发电,2015,(09):14.
 QI Hui,ZHAO Yongchun,YAO Bin,et al.Influence factors of removing water soluble sodium in Zhundong coal by water washing[J].Thermal Power Generation,2015,(11):14.
[6]魏 博,文 彪,谭厚章,等.准东煤掺混焦炭燃烧特性研究[J].热力发电,2017,(6):51.
 WEI Bo,WEN Biao,TAN Houzhang,et al.Co-combustion characteristics of Zhundong coal mixed with coke powder[J].Thermal Power Generation,2017,(11):51.
[7]刘家利,苏国庆,张小宏,等.高碱金属煤煤灰沾污特性评价方法[J].热力发电,2016,(01):9.
 LIU Jiali,SU Guoqing,ZHANG Xiaohong,et al.Evaluation method for ash fouling characteristics of coals with high alkali content[J].Thermal Power Generation,2016,(11):9.
[8]赵 冰,王嘉瑞,王鹏辉,等.100 MW机组锅炉油页岩掺烧准东煤试验[J].热力发电,2017,(7):103.
 ZHAO Bing,WANG Jiarui,WANG Penghui,et al.Experiments about co-firing shale with Zhundong coal in a 100 MW unit boiler[J].Thermal Power Generation,2017,(11):103.
[9]李宇航,张喜来,张 森,等.准东煤防结渣添加剂应用试验[J].热力发电,2017,(9):135.
 LI Yuhang,ZHANG Xilai,ZHANG Sen,et al.Experimental study on additives applied to against slagging of Zhundong coal[J].Thermal Power Generation,2017,(11):135.
[10]高满达,孙保民,丁世兴.基于反应动力学的煤中钠对SO3生成的影响研究[J].热力发电,2017,(10):24.
 GAO Manda,SUN Baomin,DING Shixing.Reaction kinetics study on SO3 formation with presence of sodium in the coal[J].Thermal Power Generation,2017,(11):24.

备注/Memo

杜智华(1990-),男,硕士,主要研究方向为准东煤掺烧技术。

更新日期/Last Update: 2015-11-19