[1]李 江,周荣灿,唐丽英,等.模拟燃用高硫煤锅炉烟气环境中 Haynes 282合金的腐蚀行为[J].热力发电,2017,(10):30-35.
 LI Jiang,ZHOU Rongcan,TANG Liying,et al.Fireside corrosion behavior of Haynes 282 alloy in simulated boiler environments firing high sulfur content coal[J].Thermal Power Generation,2017,(10):30-35.
点击复制

模拟燃用高硫煤锅炉烟气环境中 Haynes 282合金的腐蚀行为

参考文献/References:

[1] 周荣灿, 范长信. 超超临界火电机组材料研究及选材分析[J]. 中国电力, 2005, 38(8): 41-47.
ZHOU Rongcan, FAN Changxin. Review of material research and material selection for ultra-supercritical power plants[J]. Electric Power, 2005, 38(8): 41-47.
[2] 毕凯, 周荣灿, 唐丽英. 700 ℃超超临界机组锅炉用617B合金的烟气腐蚀行为研究[J]. 热力发电, 2016, 45(2): 68-74.
BI Kai, ZHOU Rongcan, TANG Liying. Fireside corrosion behavior of Alloy 617B used for 700℃ ultra-supercritical unit boiler[J]. Thermal Power Generation, 2016, 45(2): 68-74.
[3] 唐丽英, 周荣灿, 侯淑芳, 等. 两种表面状态的Haynes 282在750℃高温蒸汽中的氧化行为[J]. 中国电机工程学报, 2016, 36(10): 2728-2733.
TANG Liying, ZHOU Rongcan, HOU Shufang, et al. Oxidation Behavior of Haynes 282 With Two Surface Conditions in Steam at 750℃[J]. Proceedings of the CSEE, 2016, 36(10): 2728-2733.
[4] SOBCZAK N, PIROWSKI Z, UHL W, et al. Castability of HAYNES 282 alloy[C]. Workshop “advanced Ultra supercritical Coal-Fired Power Plants. 2012.
[5] NATESAN K, PARK J H. Fireside and steam side corrosion of alloys for USC plants[J]. International Journal of Hydrogen Energy, 2007, 32(16): 3689-3697.
[6] VISWANATHAN R, BAKKER W. Materials for ultra-supercritical coal power plants-boiler materials: part 1[J]. Journal of Materials Engineering & Performance, 2001, 10(1): 81-95.
[7] AUNG N N, LIU X. Effect of temperature on coal ash hot corrosion resistance of Inconel 740 super alloy[J]. Corrosion Science, 2014, 82(2): 227-238.
[8] YASUHIRO T, NOBUYOSHI K, HIROSHI S, et al. Coal ash corrosion properties of Ni-Based Alloy for Advanced-USC Boilers.[C]//Advances in Materials Technology for Fossil Power Plants. 2010: 303-311.
[9] VISWANATHAN R, HENRY J F, TANZOSH J, et al. U. S. program on materials technology for ultra- supercritical coal power plants[J]. Journal of Materials Engineering & Performance, 2005, 14(3): 281-292.
[10] VISWANATHAN R, HENRY J F, TANZOSH J, et al. U. S. program on materials technology for ultra-supercritical coal power plants[C]. ASME 2007 Pressure Vessels and Piping Conference. 2007: 281-292.
[11] JOYCE M R, WU X, REED P A S. The effect of environment and orientation on fatigue crack growth behavior of CMSX-4 nickel base single crystal at 650 ℃[J]. Materials Letters, 2004, 58(1/2): 99-103.
[12] LORTRAKUL P, TRICE R W, TRUMBLE K P, et al. Investigation of the mechanisms of Type-II hot corrosion of super alloy CMSX-4[J]. Corrosion Science, 2014, 80(3): 408-415.
[13] LORTRAKUL P, TRICE R W, TRUMBLE K P, et al. Investigation of the mechanisms of Type-II hot corrosion of superalloy CMSX-4[J]. Corrosion Science, 2014, 80(3): 408-415.
[14] NIU Y, GESMUNDO F, VIANI F, et al. The corrosion of Ni3Al in a combustion gas with and without Na2SO4-NaCl deposits at 600~800 ℃[J]. Oxidation of Metals, 1994, 42(3): 265-284.
[15] STEIN-BRZOZOWSKA G, FL?REZ D M, MAIER J, et al. Nickel-base superalloys for ultra-supercritical coal-fired power plants: Fireside corrosion. Laboratory studies and power plant exposures[J]. Fuel, 2013, 108(11):521-533.
[16] BREWER L, LAMOREAUX R H. The Mo-S system (Molybdenum-Sulfur)[J]. Journal of Phase Equilibria, 1980, 1(2): 93-95.
[17] 李江, 周荣灿, 唐丽英, 等. HR3C钢在模拟燃用高硫煤锅炉环境中的高温烟气腐蚀行为[J]. 热力发电, 2016, 45(1): 70-75.
LI Jiang, ZHOU Rongcan, TANG Liying, et al. Fireside corrosion behavior of HR3C in simulated coal-fired boiler atmospheres with high sulfur concentration[J]. Thermal Power Generation, 2016, 45(1): 70-75.

相似文献/References:

[1]席广辉,张 俊.锅炉空气预热器柔性接触式密封改造[J].热力发电,2009,(08):73.
 XI Guang-hui,ZHANG Jun.RETROFITTING AIR PREHEATER OF BOILER TO ADOPT CONTACTING TYPE FLEXIBLE SEAL[J].Thermal Power Generation,2009,(10):73.
[2]胡平凡,尹俊俊,张 成,等.300 MW机组锅炉贫煤改烧烟煤的试验研究[J].热力发电,2009,(08):79.
 HU Ping-fan,YIN Jun-jun,ZHANG Cheng,et al.TEST STUDY ON CONVERTING LEAN-COAL FIRED BOILER FOR 300 MW UNIT TO BURN BITUMINOUS COAL[J].Thermal Power Generation,2009,(10):79.
[3]吴有兵.引风机液力耦合器回油超温原因分析及处理措施[J].热力发电,2009,(08):86.
 WU You-bing.CAUSE ANALYSIS ABOUT OVERTEMPERATURE OF RETURN OIL FROM HYDRAULIC COUPLING OF I.D.FANS[J].Thermal Power Generation,2009,(10):86.
[4]马 崇,陈韶瑜.锅炉水冷壁管开裂泄漏原因分析[J].热力发电,2009,(08):133.
 MA Chong,CHEN Shao-yu.CAUSE ANALYSIS OF CRACKING LEAKAGE ON WATER-WALL TUBES IN THE BOILER[J].Thermal Power Generation,2009,(10):133.
[5]罗海华,黄 文,吴金星,等.国内超超临界百万千瓦等级机组汽轮机旁路系统选型[J].热力发电,2009,(09):11.
 LUO Hai-hua,HUANG Wen,WU Jin-xing,et al.TYPE SELECTION OF TURBINES’ BY-PASS SYSTEM FOR ULTRA-SUPERCRITICAL UNITS WITH 1 000 MW CAPACITY IN CHINA[J].Thermal Power Generation,2009,(10):11.
[6]曹杰玉,宋敬霞.锅炉清洗缓蚀剂评价试验方法的研究[J].热力发电,2009,(09):29.
 CAO Jie-yu,SONG Jing-xia.STUDY ON TEST METHODS FOR EVALUATING INHIBITERS USED IN CHEMICAL CLEANING OF BOILERS[J].Thermal Power Generation,2009,(10):29.
[7]李学斌.基于多目标遗传算法和多属性决策的主蒸汽温度PID参数优化[J].热力发电,2009,(09):33.
 LI Xue-bin.OPTIMIZATION OF PID CONTROLLER PARAMETERS FOR MAIN STEAM TEMPERATURE BASED ON MULTI-OBJECTIVE GENETIC ALGORITHM AND MULTI-]ATTRIBUTE DECISION MAKING[J].Thermal Power Generation,2009,(10):33.
[8]孙群丽,李家川,王 钊,等.超超临界机组热量信号构造研究[J].热力发电,2009,(09):37.
 SUN Qun-li,LI Jia-chuan,WANG Zhao,et al.STUDY ON CONSTRUCTION OF HEAT RELEASE SIGNAL FOR ULTRA-SUPERCRITICAL UNITS[J].Thermal Power Generation,2009,(10):37.
[9]丁 宁,刘 彦,王关晴,等.高长宽比六角切圆锅炉炉内流场二次旋涡不对称性研究[J].热力发电,2009,(06):0.
[10]袁 力.T122钢许用应力下降对锅炉安全的影响[J].热力发电,2009,(07):0.

备注/Memo

李江(1987-),男,硕士,工程师,主要研究方向为超超临界火电机组材料性能,lijiang@tpri.com.cn。

更新日期/Last Update: 2017-09-30