搜索热:超声 显微镜
扫一扫 加微信
首页 > 期刊论文 > 论文摘要
超超临界电站锅炉关键材料的新进展
          
New Development of Key Materials for Ultra-supercritical Power Generation Boiler

史轩  
摘    要
高温材料和性能是制约超超临界(电站)机组发展的关键.讨论了超超临界机组锅炉用铁素体钢、奥氏体钢与镍基合金三类材料的合金化和主要性能,指出随着机组参数的提高,材料的抗蒸汽氧化性能和抗烟气腐蚀性能愈加重要,从而促进了新型奥氏体热强钢和镍基合金的发展;指出了随着超超临界技术的采用,还需要对相关材料进行大量基础试验,特别是长期试验,以积累相关数据和经验.
标    签 超超临界电站   锅炉   高温材料   ultra-supercritical power plant   boiler   high temperatare material  
 
Abstract
The key of the ultra-supercritical power generation development is the high temperature materials properties.In the present paper,the alloying and main properties of ferritic steels,austenitic steels and Ni-based alloys used for the ultra-supercritical power generation are discussed.It is indicated that the resistance to steam oxidation and fire-side corrosion becomes more important with the increase of the boiler parameters,which advances the development of new austenite steels and Ni based alloys.Moreover,with the application of ultra-supercritical technique,lots of fundamental experiments are needed to accumulate the data and experience for the relative materials,especially the long-term experiments are needed.

中图分类号 TG14

 
  中国光学期刊网论文下载说明


所属栏目 综述

基金项目

收稿日期 2008/8/30

修改稿日期 2009/4/2

网络出版日期

作者单位点击查看

备注史轩(1970-),女,北京人,高级工程师,硕士.

引用该论文: SHI Xuan. New Development of Key Materials for Ultra-supercritical Power Generation Boiler[J]. Materials for mechancial engineering, 2009, 33(9): 1~5
史轩. 超超临界电站锅炉关键材料的新进展[J]. 机械工程材料, 2009, 33(9): 1~5


被引情况:


【1】郭晓峰,巩建鸣,姜勇, "650 ℃等温时效过程中P92钢沉淀相的转变规律",机械工程材料 39, 41-43(2015)

【2】郭晓峰,巩建鸣,姜勇, "P92钢中Laves相在时效过程中的形成及粗化规律",机械工程材料 38, 6-8(2014)

【3】范吉富,董显平,熊伟,金迪,陈胜军,潘力,单爱党, "超超临界机组锅炉用T91钢蒸汽采样管焊接接头开裂的原因",机械工程材料 40, 109-113(2016)

【4】赵雷,乔汉文,梁军,钟群鹏,徐连勇,肖德铭, "焊接参数对T92/S30432异种钢焊接接头室温力学性能的影响",机械工程材料 39, 32-38(2015)

【5】缪春辉,汤 泉,张 涛,陈国宏, "某火力发电厂水冷蒸发屏管泄漏原因分析及处理",理化检验-物理分册 52, 574-577(2016)



论文评价
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
分享论文
分享到新浪微博 分享到腾讯微博 分享到人人网 分享到 Google Reader 分享到百度搜藏分享到Twitter

参考文献
【1】ZECHBAUER U.Coal's cleaner outlook,Pictures of the future[R].[s.l.]:Siemens,2008:36-39.
 
【2】潘乾刚.锅炉制造和锅炉焊接技术的发展[C]//2005能源工程焊接国际论坛.北京:机械工业出版社,2005:202-207.
 
【3】FUKUDA Y,SHIMIZU M.Hot corrosion and steam oxidation properties of new heat resistant steels for ultra super critical boilers[J].Materials Science Forum,2006,522/523:189-196.
 
【4】VISWANATHAN R,BAKKER WT.Materials for boilers in ultra supercritical power plants[C]//Proc.of 2000 International Joint Power Generation Conference.Florida:Miami Beach,2000:1-22.
 
【5】MASUYAMA F.New developments in steels for power generation boilers[C]//VISWANATHAN R and NUTTING J W.Advanced Heat Resistant Steels for Power Generation.London:IOM Communications Ltd.,1999:33-48.
 
【6】HACK H,STANKO G.Experimental evaluation of fireside corrosion resistance of advanced materials for ultra-supercritical coal-fired power plants[C]//23rd Annual International Pittsburgh Coal Conference,PCC-Coal-Energy,Environment and Sustainable Development.US:Pittsburgh,2006:1-17.
 
【7】VAILLANT J C,VANDENBERGHE B,HAHN B,et al.T/P23,24,911 and 92:new grades for advanced coal-fired power plants-properties and experience[J].International Journal of Pressure Vessel and Piping,2008,85:38-46.
 
【8】陶永顺,杨春乐,史耀武.改良型9Cr1Mo钢焊接工艺及在电站锅炉上的应用[J].东方电气评论,1995,9(4):199-211.
 
【9】SHIBLI A,STARR F.Some aspects of plant and research experience in the use of new high strength martensitic steel P91[J].International Journal of Pressure Vessel and Piping,2007,84:114-122.
 
【10】NESSLER H,PREISS R,EISENKOLB P.Development in HRSG technology[EB/OL].http://www.nawabi.de/chemical/hrsg/generator.aspv.
 
【11】Burmeister and Wain Energy A/S.Ultra Super Critical Boilers[EB/OL].http://www.bwe.dk/usc-ref.html.
 
【12】VISWANATHAN R,SARVER J,TANZOSH JM.Boiler materials for ultra-supercritical coal power plants-steamside oxidation[J].Journal of Materials Engineering and Performance,2006,15(3):255-274.
 
【13】RICHARDSON M,KIDERA Y,SHIMOGORI Y.Supercritical Boiler Technology Matures[EB/OL].http://www.hitachi.us/supportingdocs/forbus/powerindustrial/CG2004.pdf.
 
【14】NATESAN K,PARK J H.Fireside and steamside corrosion of alloys for USC plants[J].International Journal of Hydrogen Energy,2007,32:3689-3697.
 
【15】BAKER B A.A new alloy designed for superheater tubing in coal-fired ultra supercritical boilers[C]//Proceedings of the 6th International Symposium on Superalloys 718,625,706 and Derivatives.Pittsburgh,Pennsylvania,USA:TMS,2005:601-611.
 
【16】VISWANATHAN R,COLEMAN K,RAO U.Materials for ultra-supercritical coal-fired power plant boilers[J].International Journal of Pressure Vessel and Piping,2006,83:778-783.
 
【17】SUSTA M R,SEONG K B.Supercritical and ultra-supercritical power plants[EB/OL].http://www.powergolflink.com.
 
【18】Technology status report 18:review of status of advanced materials for power generation[R].London:Cleaner Coal Technology Programme Energy Unit,Department of Trade and Industry,2002.
 
相关信息
   标题 相关频次
 12Cr1MoV钢在碱金属硫氯盐中的腐蚀行为
 2
 670t/h锅炉高温过热器管爆裂失效分析
 2
 EDTA酸洗技术在1000MW机组锅炉化学清洗中的应用
 2
 奥氏体不锈钢小径管弯管段内壁裂纹的超声检测
 2
 超超临界电站锅炉小径管焊缝超声波探伤
 2
 超超临界锅炉捞渣机圆环链断裂分析
 2
 超高压锅炉低温再热器爆管原因浅析
 2
 船用锅炉过热管束异常破损分析
 2
 电厂锅炉水冷壁爆管原因分析
 2
 电站锅炉爆管事故原因分析
 2
 锅炉导汽管蠕变剩余寿命评估的新方法
 2
 锅炉底板裂缝泄漏失效分析
 2
 锅炉对流管开裂原因分析
 2
 锅炉改烧大同烟煤的技术方案与效果
 2
 锅炉过渡段水冷壁15CrMoG钢连接管安装阶段环向开裂的原因
 2
 锅炉过热器管爆裂原因分析
 2
 锅炉水冷壁管爆管原因分析
 2
 锅炉旋风分离器进口受热面管爆裂原因分析
 2
 锅炉压力容器用钢板中夹杂物的形成原因
 2
 回转式空气预热器漏风监测的研究进展
 2
 机组锅炉产品安装检测中典型质量问题的分析及建议
 2
 利用一次风冷却器降低燃煤机组煤耗
 2
 某超临界机组锅炉过热器管爆管原因分析
 2
 某电厂锅炉高温过热器管泄漏原因
 2
 某锅炉对流管泄漏失效分析
 2
 某化工厂自备电站锅炉水冷蒸发屏爆管原因分析
 2
 某热电厂600 MW锅炉水冷壁管开裂原因
 2
 某蒸气锅炉水冷壁管爆裂分析
 2
 热电厂锅炉高温过热器管爆管原因
 2
 声发射技术在锅炉泄漏检测中的应用
 2