TTapping R.Flow accelerated corrosion[R/CD].Materials Problems in Light Water Nuclear Reactors: Status,Mitigation,Future Problems.Suzhou: Suzhou Nuclear Power Research Institute,2005.
GGuo H X,Lu B T,Luo J L.Non faraday material loss in flowing corrosive solution[J].Electrochimica Acta,2006,51:5341.
[4]
PPoulson B,Robinson R.The use of a corrosion process to obtain mass transfer data[J].Corrosion Sciences,1986,26(4): 265.
[5]
[9]Heitz E.Chemo mechanical effects of flow on corrosion[J].Corrosion, 1991,47(2):135.
[6]
Chen T Y,Moccari A A,Macdonald D D.Development of controlled hydrodynamic techniques for corrosion testing[J].Corrosion,1992,48(3):239.[11]Abdulsalam M,Stanley J T.Steady state model for erosion corrosion of feedwater piping[J].Corrosion,1992,48(7):587.
[7]
Tomlinson L,Hurdus M H,Silver P J B.The effect of hydrogen on the corrosion of a 2.25% Cr ferritic steel by high temperature water[J],Corrosion Science,1981,21:369.
[8]
Matsumura M.A case study of a pipe line burst in the Mihama Nuclear Power Plant[J].Materials and Corrosion,2006,57(11):872.
[9]
Kim I S,Von D Helm H,Ballinger R G,et al.Flow induced material degradation in power plant secondary systems a review[J].Journal of the Korean Nuclear Society,1998,30(2):148.
[10]
任玉新,陈海昕.计算流体力学基础[M].北京:清华大学出版社,2006.1.
[11]
Ferng Y M,Ma Y P,Chung N M,Application of local flow models in predicting distributions of erosion corrosion locations[J].Corrosion,2000,56(2): 116.
[12]
Ferng Y M,Ma Y P,Ma K T,et al.A new approach for investigation of erosion corrosion using local flow models[J].Corrosion,1999,55 (4): 332.[18]Ferng Y M.Predicting local distributions of erosion corrosion wear sites for the piping in the nuclear power plant using CFD models[J],Ann.Nucl.Energ,2008,35(2):304.
[13]
Bozzini B,Ricotti M E,Boniardi M,et al.Evaluation of erosion corrosion in multiphase flow via CFD and experimental analysis[J].Wear,2003,255:237.
Guimaraes A C F.A new methodology for the study of FAC phenomenon based on a fuzzy rule system [J].Annals of Nuclear Energy,2003,30:853.
[20]
Fleming K N.Markov models for evaluating risk informed in service inspection strategies for nuclear power plant piping systems [J]. Reliability Engineering and System Safety 2004,83:27.
[21]
Malinov S,Sha W.Application of artificial neural networks for modeling correlations in titanium alloys [J].Materials Science and Engineering A,2004,365:202.
[22]
CChexal V K,Horowitz J,Dooley R B,et al.Flow Accelerated Corrosion in Power Plants[R].Electric Power Research Institute,EPRI,TR 106611R1, 1998. 1.
[23]
DDooley R B,Chexal V K.Flow accelerated corrosion of pressure vessels in fossil plants [J].International Journal of Pressure Vessels and Piping, 2000,77:85.
[24]
DDooley R B,Tilley R.Guidelines for controlling flow accelerated corrosion in fossil and combined cycle plants[EB/OL].
[25]
LLee N Y,Lee S G,Ryu K H,et al.On line monitoring system development for single phase flow accelerated corrosion[J],Nuclear Eng.Design,2007,237:761.
