Zhou X L,Cheng L M,Wang Q H,et al.Non-uniform distribution of gas-solid flow through six parallel cyclones in a CFB system:an experimental study[J].Particuology,2012,10(2):170-175.
[2]
Zhou X L,Cheng L M,Wang C,et al.Experimental investigations on multiple cyclones in a circulating fluidized bed[C]//The 8th International Symposium on Gas Cleaning at High Temperatures.Taiyuan,China,2010.
[3]
程乐鸣,周星龙,王勤辉,等.循环流化床六分离器气固均匀性试验研究[C]//全国电力行业CFB机组技术交流服务协作网第九届年会暨第二届中国循环流化床燃烧理论与技术学术会议.贵阳,中国:,2010:16-25. Cheng Leming,Zhou Xinglong,Wang Qinhui,et al.Experimental study on the uniformity of gas-solid flow in a circulating fluidized bed with six cyclone separators [C]//The 9th Annual Meeting of National CFB Collaboration.Guiyang,China,2010:16-25(in Chinese).
[4]
廖磊,那永洁,吕清刚,等 六个旋风分离器并联布置循环流化床的实验研究[J].中国电机工程学报,2011,31(11):11-16. Liao Lei,Na Yongjie,Lü Qinggang,et al.Experimental study on a circulating fluidized bed with six cyclone separators[J].Proceedings of the CSEE,2011,31(11):11-16(in Chinese).
[5]
Yue G X,Yang H,Nie L,et al.Hydrodynamics of 300 MWe and 600 MWe CFB boilers with asymmetric cyclone layout[C]//Circulating Fluidized Bed Technology IX.Hamburg:TuTech Innovation,2008:153-158.
[6]
Guo Q,Zheng X S,Zhou Q,et al.Operation experience and performance of the first 300 MWe CFB boiler developed by DBC in China[C]//Proceedings of the 20th International Conference on Fluidized Bed Combustion.X’an,China:Springer,2009:237-242.
[7]
黄晨,程乐鸣,周星龙,等.大型循环流化床炉内悬吊受热面传热特性[J].浙江大学学报:工学版,2012,46(11):2128-2132. Huang Cheng,Cheng Leming,Zhou Xinglong,et al.Suspended surface heat transfer in a large circulating fluidized bed boiler furnace[J].Journal of Zhejiang University:Engineering Science,2012,46(11):2128-2132(in Chinese).
[8]
Cheng L M,Zhang J C,Luo Z Y,et al.Problems with circulating fluidised bed(CFB)in China and their solutions[R].VGB PowerTech,2011:60-73.
[9]
程乐鸣,周星龙,郑成航,等.大型循环流化床锅炉的发展[J].动力工程,2008,28(6):817-826. Cheng Leming,Zhou Xinglong,Zheng Chenghang,et al.Development of large-scale circulating fluidized bed boiler[J].Journal of Power Engineering,2008,28(6):817-826(in Chinese).
[10]
赵凯,李前宇,米子德.双支腿循环流化床锅炉的燃烧调整[J].华北电力技术,2007(7):22-25,39. Zhao Kai,Li Qianyu,Mi Zide.Combustion adjustment of double dip leg CFB boiler[J].North China Electric Power,2007(7):22-25,39(in Chinese).
[11]
Li J J,Wang W,Yang H R,et al.Bed inventory overturn in a circulating fluid bed riser with pant-leg structure[J].Energy & Fuels,2009,23(5):2565-2569.
[12]
Li J J,Zhang H,Yang H R,et al.The mechanism of lateral solid transfer in a CFB riser with pant-leg structure[J].Energy & Fuels,2010,24(4):2628-2633.
[13]
李金晶,吕俊复,刘树清,等.300 MW循环流化床的仿真建模[J].清华大学学报:自然科学版,2009,49(11):1813-1817. Li Jinjing,Lü Junfu,Liu Shuqing,et al.Modeling of a 300 MW circulating fluidized bed boiler[J].Journal of Tsinghua University:Science and Technology,2009,49(11):1813-1817(in Chinese).
[14]
杨志伟,王哲,李政,等.裤衩型循环流化床动态数学模型研究[J].动力工程学报,2010,30(11):820-826. Yang Zhiwei,Wang Zhe,Li Zheng,et al.Dynamic mathematic modeling study on circulating fluidized bed with breeches-legs[J].Journal of Chinese Society of Power Engineering,2010,30(11):820-826(in Chinese).
[15]
孙纪宁,王哲,杨志伟,等.裤衩腿循环流化床流动特性及翻床机理的研究[J].动力工程学报,2010,30(5):336-341. Sun Jining,Wang Zhe,Yang Zhiwei,et al.Flowing features and mechanism of bed overturn in circulating fluidized bed with breeches-legs[J].Journal of Chinese Society of Power Engineering,2010,30(5):336-341(in Chinese).
[16]
周星龙,程乐鸣,岑可法,等.双支腿循环流化床炉膛翻床条件与防止控制试验研究[J].动力工程学报,2014,34(2):85-90. Zhou Xinglong,Cheng Leming,Cen Kefa,et al.Experimental study on inventory overturn in a Breeches-legs CFB and the control strategy[J].Journal of Chinese Society of Power Engineering,2014,34(2):85-90(in Chinese).
[17]
Hotta A.Foster wheeler’s solutions for large scale CFB boiler technology:Features and operational performance of Lagisza 460 MWe CFB boiler[C]//Proceedings of the 20th International Conference on Fluidized Bed Combustion.X’an,China:Springer,2010:59-70.
[18]
Hartge E U,Budinger S,Werther J.Spatial effects in the combustion chamber of the 235 MWe CFB boiler Turow[C]//Circulating Fluidized Bed Technology VIII.Hangzhou:International Academic Publishers,2005:675-682.
[19]
Kim T W,Choi J H,Shun D W,et al.Wear of water walls in a commercial circulating fluidized bed combustor with two gas exits[J].Powder Technology,2007,178(3):143-150.
[20]
东方电气集团东方锅炉自主研制的世界首台最大容量的600MW超临界循环流化床锅炉通过168小时满负荷试运行[EB/OL].北京:新华通讯社,2013[2014-11-.http://www.sc.xinhuanet.com/content/2013-04/15/c_115395443.htm. World’s first 600 MW supercritical CFB boiler independently developed by DBC put into full load operation[EB/OL].Beijing:Xinhua News Agency,2013[2014-11-15].http://www.sc.xinhuanet.com/content/2013-04/15/c_115395443.htm(in Chinese).
[21]
王虎,卢啸风,王泉海,等.600 MW超临界CFB锅炉运行特性分析[C]//中国工程热物理学会2013年燃烧学学术会议暨国家自然科学基金燃烧项目进展交流会.重庆,2013. Wang Hu,Lu Xiaofeng,Wang Quanhai,et al.The operational characteristics of 600 MW supercritical CFB Boiler[C]//Combustion branch of Chinese Society of Engineering Thermophysics and Progress meeting on combustion of National Natural Science Fund.Chongqing,2013(in Chinese).
[22]
聂立,王鹏,彭雷,等.600 MW超临界循环流化床锅炉的设计[J].动力工程,2008,28(5):701-706. Nie Li,Wang Peng,Peng Lei,et al.Design of 600 MW supercritical circulating fluidized bed boiler[J].Journal of Power Engineering,2008,28(5):701-706(in Chinese).
[23]
郑兴胜,郭强,周棋.首台自主研发600 MW超临界CFB锅炉启动调试及试运行[J].东方电气评论,2014,28(1):19-22. Zheng Xingqiang,Guo Qiang,Zhou Qi.Startup debugging and commissioning of the first independent R&D 600 MW supercritical CFB boiler[J].Dongfang Electric Review,2014,28(1):19-22(in Chinese).
[24]
Morin J X.Recent Alstom power large CFB and scale up aspects including steps to supercritical[C]//Proceedings of 47th International Energy Agency Workshop on Large Scale CFB.Zlotnicki,Poland,2003.
[25]
Robertson A,Goidich S,Fan Z.1300°F 800 MWe USC CFB boiler design study[C]//Proceedings of the 20th International Conference on Fluidized Bed Combustion.Xi'an,China:Springer,2009:125-131.
[26]
刘静,王勤辉,骆仲泱,等.600 MWe超临界循环流化床锅炉的设计研究[J].动力工程,2003,23(1):2179-2184,2204. Liu Jing,Wang Qinhui,Luo Zhongyang,et al.Design and research on a 600 MWe supercritical circulating fluidized bed boiler[J].Power Engineering,2003,23(1):2179-2184,2204(in Chinese).
[27]
Venäläinen I,Psik R.460 MWe supercritical CFB boiler design for Łagisza power plant[C]//PowerGen Europe.2004:25-27.
[28]
吴玉新,吕俊复,张建胜,等.800 MWe超临界循环流化床锅炉概念设计[J].锅炉技术,2004,35(3):1-5,48. Wu Yuxin,Lü Junfu,Zhang Jiansheng,et al.Conceptual design of an 800 MWe supercritical pressure circulating fluidized bed boiler[J].Boiler Technology,2004,35(3):1-5,48(in Chinese).
[29]
吕俊复,于龙,张彦军,等.600 MW超临界循环流化床锅炉[J].动力工程,2007,27(4):497-501,587. Lü Junfu,Yu Long,Zhang Yanjun,et al.A 600 MW supercritical circulating fluidized bed boiler[J].Journal of Power Engineering,2007,27(4):497-501,587(in Chinese).
[30]
吕清刚,宋国良,孙运凯,等.自主研发600 MWe超临界循环流化床锅炉技术[C]//第一届中国循环流化床燃烧理论与技术学术会议.海口,中国:清华大学,2007:56-67. Lü Qinggang,Song Guoliang,Sun Yunkai,et al.Independent research and development of supercritical CFBB Technology[C]//1st National Conference on Circulating Fluidized Bed Combustion Theory and Technology in China.Haikou,China:Tsinghua University,2007:56-67(in Chinese).
[31]
孙献斌,李志伟,时正海,等.自主研发600 MW超临界CFB锅炉的设计研究[J].中国电力,2009,42(11):11-15. Sun Xianbin,Li Zhiwei,Shi Zhenghai,et al.Research and design of domestic proprietary 600 MW supercritical CFB boiler[J].Electric Power,2009,42(11):11-15(in Chinese).
[32]
张缦,姜孝国,王凤君,等.600 MW超临界循环流化床锅炉技术特点[J].锅炉制造,2009(6):1-6. Zhang Man,Jiang Xiaoguo,Wang Fengjun,et al.Technology characteristics of 600 MW supercritical circulating fluidized bed boiler[J].Boiler Manufacturing,2009(6):1-6(in Chinese).
[33]
Jäntti T,Räsänen K.Circulating fluidized bed technology towards 800 MWe scale-lagisza 460 MWe supercritical CFB operation experience[C]//Power Gen Europe.Milan,Italy,2011.
[34]
McCauley K J,Kraft D L,Maryamchik M,et al.IR-CFB Boilers:supercritical once-through developments for power generation[C]//Power-Gen Asia 2012.Barberton,Ohio,USA:Babcock & Wilcox Power Generation Group,Inc,2012.
[35]
Anderson S B,Nair R,Subramaniam C R,et al.Efficient combustion of waste fuel with supercritical CFB technology[R].New Delhi,India:B & W,2014.
[36]
孙献斌.700 ℃超超临界循环流化床锅炉方案设计研究[J].中国电机工程学报,2014,34(23):3977-3982. Sun Xianbin.Plan design and research of 700 ℃ultra-supercritical circulating fluidized bed boiler[J].Proceedings of the CSEE,2014,34(23):3977-3982(in Chinese).
[37]
浙江大学.600 MW超临界CFB锅炉主循环回路冷态模化试验及数值计算研究[R].杭州:浙江大学,2010. Zhejiang University.Cold model test and numerical simulation of the main circulation loop on 600 MW supercritical CFB boiler[R].Hangzhou:Zhejiang University,2010(in Chinese).
[38]
程乐鸣,周星龙,夏云飞,等.600 MW循环流化床悬吊屏气固流动与传热特性[C]//全国电力行业CFB机组技术交流服务协作网第十届年会.成都,中国,2011:148-152. Cheng Leming,Zhou Xinglong,Xia Yunfei,et al.Gas-solid Flow and Heat Transfer Characteristics of Suspended Surface in a 600 MW CFB Boiler[C]//The 10th annual meeting of National CFB collaboration.Chengdu,China,2011:148-152(in Chinese).
[39]
Hu N,Yang H R,Zhang H,et al.Experimental study on gas-solid flow charcteristics in a CFB riser of 54 M in height[C]//Proceedings of the 20th International Conference on Fluidized Bed Combustion.Berlin Heidelberg:Springer,2010:448-452.
[40]
郑成航,程乐鸣,周星龙,等.300 MW单炉膛循环流化床锅炉二次风射程的数值模拟[J].动力工程,2009,29(9):801-805,812. Zheng Chenghang,Cheng Leming,Zhou Xinglong,et al.Numerical simulation of secondary air penetration depth in a 300 MW single-furnace circulating fluidized bed boiler[J].Journal of Power Engineering,2009,29(9):801-805,812(in Chinese).
[41]
郑成航,程乐鸣,骆仲泱,等.裤衩型300 MW循环流化床炉膛二次风数值模拟[J].浙江大学学报:工学版,2010,44(4):743-749. Zheng Chenghang,Cheng Leming,Luo Zhongyang,et al.Numerical simulation of the impact of secondary air for a pant-leg 300 MW circulation fluidized bed boiler[J].Journal of Zhejiang University:Engineering Science,2010,44(4):743-749(in Chinese).
[42]
Zhou X L,Cheng L M,Wang Q H,et al.Study of air jet penetration in a fluidized bed[C]//Proceedings of the 20th International Conference on Fluidized Bed Combustion.X’an,China:Springer,2010:453-458.
[43]
Zhou X L,Cheng L M,Wang Q H,et al.Influence of secondary air ratio on gas-solid mixing and combustion in a 300 MWe CFB boiler furnace[C]//Proceedings of the 2010 International Conference on E-Product E-Service and E-Entertainment.Henan,China:IEEE,2010:1-4.
[44]
浙江大学.循环流化床中隔墙夹心多级二次风供风装置:中国,CN 200910152757.1[P].2010-03-03. Zhejiang University.A multistage second air supply device of partition wall in CFB:China,CN 200910152757.1[P].2010-03-03(in Chinese).
[45]
吴玉平,周嗣林,蒋茂庆.300 MW循环流化床锅炉翻床现象及处理方法[J].热力发电,2007(8):55-57. Wu Yuping,Zhou Silin,Jiang Maoqing.Bed-overturn phenomenon of underpants leg in 300 MW CFB boiler and remedial method thereof[J].Thermal Power Generation,2007(8):55-57(in Chinese).
[46]
王引成.300 MW双炉室循环流化床锅炉偏床问题研究[J].电力学报,2010,25(2):121-124,130. Wang Yincheng.Partial-bed study on 300 MW dual-chamber circulating fluidized-bed boiler[J].Journal of Electric Power,2010,25(2):121-124,130(in Chinese).
[47]
Cheng L M,Zhou X L,Huang C,et al.Heat transfer of suspended surface in a CFB with 6 cyclones and a pant-leg[C]//21st International Conference on Fluidized Bed Combustion.Naples(Italy),2012:58-64.
[48]
王超,程乐鸣,周星龙,等.600 MW超临界循环流化床锅炉炉膛气固流场的数值模拟[J].中国电机工程学报,2011,31(14):1-7. Wang Chao,Cheng Leming,Zhou Xinglong,et al.Numerical simulation of gas-solid hydrodynamics in a 600 MW supercritical circulating fluidized bed boiler furnace[J].Proceedings of the CSEE,2011,31(14):1-7(in Chinese).
[49]
程乐鸣,王勤辉,施正伦,等.大型循环流化床锅炉中的传热[J].动力工程,2006,26(3):305-310. Cheng Leming,Wang Qinhui,Shi Zhenglun,et al.Heat transfer in a large circulating fluidized bed boiler[J].Journal of Power Engineering,2006,26(3):305-310(in Chinese).
[50]
周星龙,程乐鸣,夏云飞,等.600 MW循环流化床锅炉水冷壁和中隔墙传热特性[J].中国电机工程学报,2014,34(2):225-230. Zhou Xinglong,Cheng Leming,Xia Yunfei,et al.Heat transfer characteristic of water wall and partition wall in a 600 MW CFB boiler[J].Proceedings of the CSEE,2014,34(2):225-230(in Chinese).
[51]
Cheng L M,Yang C,Zhou X L,et al.Operation problems with suspended heat exchanger surfaces in a CFB furnace[Z].VGB PowerTech,2012:91-95.
[52]
Zhang R Q,Yang H R,Hu N,et al.Experimental investigation and model validation of the heat flux profile in a 300 MW CFB boiler[J].Powder Technology,2013,246:31-40.
[53]
Zhang M,Wu H B,Lu Q G,et al.Heat transfer characteristics of fluidized bed heat exchanger in a 300 MW CFB boiler[J].Powder Technology,2012,222:1-7.
[54]
张彦军,杨冬,于辉,等.600 MW超临界循环流化床锅炉水冷壁的选型及水动力研究[J].动力工程,2008,28(3):339-344. Zhang Yanjun,Yang Dong,Yu Hui,et al.Research on the water wall design and hydrodynamic characteristics of a 600 MW supercritical pressure CFB boiler[J].Journal of Power Engineering,2008,28(3):339-344(in Chinese).
[55]
Yang D,Pan J,Zhou C Q,et al.Experimental investigation on heat transfer and frictional characteristics of vertical upward rifled tube in supercritical CFB boiler[J].Experimental Thermal and Fluid Science,2011,35(2):291-300.
[56]
周旭,杨冬,肖峰,等.超临界循环流化床锅炉中等质量流速水冷壁流量分配及壁温计算[J].中国电机工程学报,2009,29(26):13-18. Zhou Xu,Yang Dong,Xiao Feng,et al.Mass flow rate profile and metal temperature calculation in water wall of an supercritical circulating fluidized bed boiler at medium mass flow rate[J].Proceedings of the CSEE,2009,29(26):13-18(in Chinese).
[57]
李燕,李文凯,吴玉新,等.带隔墙的600 MW超临界循环流化床锅炉水冷壁水动力特性[J].中国电机工程学报,2008,28(29):1-5. Li Yan,Li Wenkai,Wu Yuxin,et al.Hydrodynamics of the water wall in a 600 MW supercritical circulating fluidized bed boiler with water cooled panels within the furnace[J].Proceedings of the CSEE,2008,28(29):1-5(in Chinese).
[58]
杨冬,马彦花,潘杰,等.600 MW超临界循环流化床锅炉水冷壁动态特性的研究[J].动力工程,2009,29(8):722-727. Yang Dong,Ma Yanhua,Pan Jie,et al.Research on waterwall dynamic characteristics of a 600 MW supercritical circulating fluidized bed boiler[J].Journal of Power Engineering,2009,29(8):722-727(in Chinese).
[59]
周旭,郭强,郑兴胜.600 MW超临界循环流化床锅炉水冷壁设计及运行特性[J].东方电气评论,2014,28(1):23-25. Zhou Xu,Guo Qiang,Zheng Xingsheng.Water wall designing and operation characteristic of 600 MW supercritical CFB boiler[J].Dongfang Electric Review,2014,28(1):23-25(in Chinese).
[60]
Zou Y J,Cheng L M,Xu L J,et al.Local riser voidage variation with interrupting one circulating loop in a six-cyclones CFB system[C]//Proceedings of the 11th International Conference on Fluidized Bed Technology.Beijing:Chemical Industry Press,2014:739-746.
[61]
钱宇,张敏,李力全.循环流化床锅炉防磨技术[J].热力发电,2007,36(6):72-74. Qian Yu,Zhang Min,Li Liquan.Anti-wear technology for CFB boilers[J].Thermal Power Generation,2007,36(6):72-74(in Chinese).
[62]
李渭春.循环流化床锅炉磨损问题分析及防磨措施[J].锅炉制造,2008(5):7-9. Li Weichun.Abrasion analysis of CFB boiler and its preventive measures[J].Boiler Manufacturing,2008(5):7-9(in Chinese).
[63]
肖平,吕海生,徐正泉,等.大型CFB锅炉安装防磨梁后防磨效果及锅炉运行性能影响研究[C]//全国电力行业CFB机组技术交流服务协作网第十届年会.成都:中国电力企业联合会,全国电力行业CFB机组技术交流服务协作网,2011:222-231. Xiao Ping,Lü Haisheng,Xu Zhengquan,et al.Study on the influence of anti-wear effect boiler operation performance in large CFB boilers with anti-wear beams[C]//The 10th Annual Meeting of National CFB Collaboration.Chengdu,China,2011:222-231(in Chinese).
[64]
王东峰.465 t/h循环流化床锅炉炉内防磨损改造[J].能源工程,2014(4):76-80. Wang Dongfeng.Abrasion transformation of 450 t/h CFB boiler[J].Energy Engineering,2014(4):76-80(in Chinese).
[65]
西安热工研究院有限公司.一种带有防磨装置的循环流化床锅炉炉膛:中国,200520118121.2[P].2007-01-03. X’an Thermal Power Research Institute Co.,Ltd.A CFB furnace with anti-wear device:China,200520118121.2[P].2007-01-03(in Chinese).
[66]
浙江大学.一种循环流化床反应器内壁面的防磨结构:中国,200820083290.0[P].2009-01-28. Zhejiang University.An anti-wear structure for the inside wall of CFB reactor:China,200820083290.0[P].2009-01-28(in Chinese).
[67]
华北电力大学.循环流化床锅炉水冷壁防磨导流装置:中国,201010623581.6[P].2011-05-11. North China Electric Power University.An anti-wear guide device for water wall in CFB boiler:China,201010623581.6[P].2011-05-11(in Chinese).
[68]
夏云飞,程乐鸣,张俊春,等.600 MW循环流化床锅炉水冷壁设置防磨梁后炉内气固流场的数值研究[J].动力工程学报,2013,33(2):81-87. Xia Yunfei,Cheng Leming,Zhang Junchun,et al.Numerical study of gas-solid flow field in a 600 MW CFB boiler with anti-wear beams[J].Journal of Chinese Society of Power Engineering,2013,33(2):81-87(in Chinese).
