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http://dx.doi.org/10.20466/KPVP.2016.12.1.141

Development trend of material and manufacturing process for fossil power generation  

Lee, Kyongwoon (두산중공업(주))
Kong, Byeongook (두산중공업(주))
Kim, Minsoo (두산중공업(주))
Kang, Chung Yun (부산대학교)
Publication Information
Transactions of the Korean Society of Pressure Vessels and Piping / v.12, no.1, 2016 , pp. 141-148 More about this Journal
Abstract
This paper presents an overview of worldwide electric power development and National $700^{\circ}C$ Hyper Supercritical coal-fired power generation(HSC) focus on materials and manufacturing process. To Increase the efficiency of electric power generation, It is necessary to increase steam temperature and pressure. In that case, New material and manufacturing process shall be developed for boiler and turbine component in high temperature and pressure operating condition. Therefore, Much Efforts in worldwide are progressing to develop materials and manufacturing technology and to build and operate an HSC.
Keywords
Boiler; Turbine; Steam temp.; USC(Ultra Super Critical); HSC(Hyper Super Critical); Ni Super alloy;
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  • Reference
1 2012, "The CURC-EPRI Coal Technology Roadmap"
2 2012, International Energy Agency (C) OECD/IEA
3 B. Diczfalusy, September 2012, "HELE Coal Technology Roadmap.", IEA Clean Coal Centre Workshop: on Advanced ultra supercritical coal-fired Power Plants, Vienna, Austria, pp. 12-20.
4 Masuyama Fujimitsu, 2001, "History of power plants and progress in heat resistant steels", ISIJ international, Vol. 41, No. 6, pp. 612-625.   DOI
5 2007, "The Challenge of Carbon Capture", EPRI, p.15.
6 R. Viswanathan, R. Purgert, U. Rao, 2002, "Materials for Advanced Power Engineering 2002", Proceedings Part II, pp. 1109-1129.
7 2011, "U.S Department of Energy and Ohio Coal Development Office Advanced Ultra-Supercritical Materials Project for Boiler and Steam Turbines" EPRI, Report No. 1022770.
8 R. Viswananthan, J.F. Henry, J. Tanzosh, G. Stanko, J. Shingledecker, B. Vitalis, R. Purgert, June 2005, "U.S. Program on Materials Technology for Ultra-Supercritical Coal Power Plants." Journal of Materials Engineering and Performance, Vol. 14, No. 3, pp. 281-292.   DOI
9 J.P. Shingle decker, I.G. Wright, 2006, "Evaluation of the Materials Technology Required for a $760^{\circ}C$ Power Steam Boiler." Proceedings to the 8th Liege Conference on Materials for Advanced Power Engineering, pp. 107-120.
10 P.J. Maziasz et al., August 2010, "High Temperature Mechanical Properties and Microstructure of Cast Ni-Based Superalloys for Steam Turbine Casting Applications", 6th International Conference on Advances in Materials Technology for Fossil Power Plants, Santa Fe, New Mexico.
11 Masafumi Fukuda et al., October 2013, "Advanced USC technology development in Japan", Proceedings from the Seventh International Conference.
12 Zhengdong LIU et al., October 2013, "Material advancement used for $700^{\circ}C$ A-USC-PP in China", Proceedings from the Seventh International Conference.
13 J. Shingle decker et al., October 2013, "Current status of the U.S. DOE/OCDO A-USC materials technology research and development program", Proceedings from the Seventh International Conference.
14 S. Birks et al., October 2013, "Advances in Materials Technology for Fossil Power Plants, Proceedings from the Seventh International Conference.