LIU Jiali,YAO Wei,YANG Zhongcan,et al.Adaptability analysis for semi-coke in different mill systems[J].Thermal Power Generation,2017,(2):7-14.
半焦与不同制粉系统的适应性分析
- Title:
- Adaptability analysis for semi-coke in different mill systems
- 分类号:
- TK223.25
- 文献标志码:
- A
- 摘要:
- 为了充分掌握半焦与不同制粉系统的适应性及其研磨特性,对中速磨煤机、中储式钢球磨煤机和直吹式双进双出钢球磨煤机上掺烧半焦前后的制粉系统性能进行测试,并对实际研磨出力与理论计算研磨出力进行比对,分析了煤质参数、煤粉细度、煤粉水分等指标对半焦研磨出力计算的影响。试验结果表明:无论对于哪种类型磨煤机,掺烧半焦后均有制粉系统出力下降和煤粉变粗的趋势,这主要与半焦的哈氏可磨性系数HGI较低密切相关;半焦在中速磨煤机上的实际出力低于理论计算出力,而部分半焦水分高也是导致钢球磨煤机实际研磨出力降低的主要原因;低水分半焦在钢球磨煤机上的实际研磨出力和理论计算结果接近,建议半焦应尽量在原煤HGI较低或者磨煤机研磨出力裕量较大的电厂掺烧,以保证锅炉燃烧的经济性和安全性。
参考文献/References:
[1]兰炭用煤技术条件:GB/T 25210-2010[S].2010:2.Specifications of coals for blue-coke:GB/T 25210-2010[S].2010:2.
[2]兰炭产品技术条件:GB/T 25211-2010[S].2011:2.Specifications of blue-coke:GB/T 25211-2010[S].2011:2.
[3]榆林市兰炭产业发展调研组.榆林市兰炭产业发展调研报告[J].中国经贸导刊,2010(18):20-23.Yulin Blue-coke Industrial Development Research Group.Industry development research report of Yulin Blue-coke [J].China Economic & Trade Herald,2010(18):20-23.
[4]张秦龙,杨佳.发展中的榆林市兰炭产业[J].产业与科技论坛,2013,12(8) :61.ZHANG Qinlong,YANG Jia.Development semi-coke industry in Yulin city [J].Industry and Technology Forum,2013,12(8):61.
[5]辛收良.兰炭掺烧技术的研究与应用[J].化肥设计,2013,51(1):53-55.XIN Shouliang,Research and application for combustion technology mixing with blue carbon[J].Iron Steel Vanadium Titanium,2013,51(1):53-55.
[6]张鑫.兰炭替代无烟煤高效清洁利用的研究[J].洁净煤技术,2015,21(3):103-106.ZHANG Xin.Feasibility on semi-coke substitute for anthracite in energy conservation and emissions reduction [J].Clean Coal Technology,2015,21(3):103-106.
[7]牛芳.煤粉工业锅炉燃烧兰炭试验研究[J].洁净煤技术,2015,21(2):106-108.NIU Fang.Feasibility of semi-coke combustion in industrial pulverized coal boiler [J].Clean Coal Techno-logy,2015,21(2):106-108.
[8]马文祥.双进双出钢球磨煤机选型要点论述[J].电站辅机,2005,26(1):38-40.MA Wenxiang.Key points of selection of the duplex inlet & outlet ball pulverizer[J].Power Station Auxi-liary Equipment ,2005,26(1):38-40.
[9]发电煤粉锅炉用煤技术条件:GB/T 7562-1998 [S].1998:23.Specification of coal for power generation pulverized coal boiler:GB/T 7562-1998[S].1998:23.
[10]煤的冲刷磨损指数试验方法:DL/T 465-2007 [S].2007:11.Determination of the impingement abrasion index of coal:DL/T 465-2007[S].2007:11.
[11]张安国,梁辉.电站锅炉煤粉制备与计算[M].北京:中国电力出版社,2010:72-75.ZHANG Anguo,LIANG Hui.Coal pulverization and calculation of power plant [M].Beijing:China Electric Power Publishing House,2010:72-75.
[12]火力发电厂制粉系统设计计算技术规定:DL/T 5145-2002[S].2002:15.Technical code for design and calculation of pulverized coal preparation system of fossil-fired power plant:DL/T 5145-2002[S].2002:15.
[13]吴金星.660 MW超临界机组双进双出钢球磨直吹式制粉系统磨煤机配置研究[J],江西电力职业技术学院学报,2013,26(2):16-22.WU Jinxing.Study on the double in double out steel mill ball pulverizing system configuration for 660 MW supercritical boiler[J].Journal of Jiangxi Vocational and Technical College of Electricity,2013,26(2):16-22.
[14]鲁宝全,宋辉,王秀江.BBD4060型双进双出钢球磨煤机的调整[C]//全国火电大机组(300 MW级)竞赛第三十八届年会论文集.2009:125-129.LU Baoquan,SONG Hui,WANG Xiujiang.Adjustment of double inlet and double outlet ball mill BBD4060[C]//Proceedings of Annual Meeting of the National Contest of Thermal Power Units.2009:125-129.
[15]陈梅倩,白绍章.双进双出钢球磨煤机技术的现状及发展前景[J].河北电力技术,1997,16(4):1-5.CHEN Meiqian,BAI Shaozhang.Double inlet and double outlet ball mill technology status and development prospects[J].Hebei Electric Power Technology,1997,16(4):1-5(in Chinese).
相似文献/References:
[1]王文生,尚海军,祝志福.烟煤锅炉掺烧褐煤产生的问题及其改造[J].热力发电,2009,(09):60.
WANG Wen-sheng,SHANG Hai-jun,ZHU Zhi-fu.THE PROBLEMS RESULTED FROM MIXEDLY BURNING BROWN COAL IN A BITUMINOUS COAL FIRED BOILER AND RETROFIT THEREOF[J].Thermal Power Generation,2009,(2):60.
[2]应明良,戴成峰,胡伟锋,等.四角切圆燃烧锅炉掺烧印尼煤运行特性分析[J].热力发电,2008,(11):64.
[3]金 迪.中贮式制粉系统爆炸原因分析及防范措施[J].热力发电,2006,(12):0.
[4]安雪忠,解文军,叶 锋.热风挡板卡死及漏风原因分析与处理[J].热力发电,2006,(08):0.
[5]陶 泯,李 英,汪思义.BP神经网络在磨煤机料位监测中的应用[J].热力发电,2006,(09):0.
[6]乔 锃,张彦斌,李 纯,等.火电厂球磨机寻优节能控制系统的研究与开发[J].热力发电,2005,(12):0.
[7]陈献春,杨 俊,周宇阳,等.基于DCS一体化的球磨机制粉系统仿真建模[J].热力发电,2005,(01):0.
[8]沈建勇.某电厂中间贮仓式制粉系统爆炸原因分析[J].热力发电,2005,(02):0.
[9]王 斌,郭翠爱,温曙光.钢球磨煤机的模糊控制[J].热力发电,2004,(11):0.
[10]程少辉,曾汉才.锅炉粗粉分离器改造[J].热力发电,2004,(03):0.
备注/Memo
刘家利(1976-),女,硕士,高级工程师,主要研究方向为燃煤特性与锅炉设备的匹配性,liujiali@tpri.com.cn。
