206     C h a p t e r   6


                      20.  Fitzgerald III, JH. Longevity of a graphitized cast iron water main. Materials
                         Performance, 2007; 46: 30.
                      21.  Roberge PR. Corrosion Basics—An Introduction. 2nd edn. Houston, Tex.: NACE
                         International, 2005.
                      22.  Petroleum and natural gas industries—Materials for use in H S-containing
                                                                      2
                         environments in oil and gas production, NACE MR0175/ISO 15156. Houston,
                         Tex.: NACE International, 2001.
                      23.  Poulson BS. Erosion corrosion. In: Shreir LL, Jarman RA, Burstein GT, eds.
                         Corrosion Control. Oxford, U.K.: Butterworths Heinemann, 1994; 1:293–1:303.
                      24.  Shifler DA. Environmental effects in flow assisted corrosion of naval systems.
                         CORROSION 99, Paper # 619. Houston, Tex.: NACE International, 1999.
                      25.  State-of-the-Art  Report  on  Controlled-Flow  Laboratory  Corrosion  Tests.  NACE
                         Publication 5A195. Houston, Tex.: NACE International, 1995.
                      26.  Postlethwaite J, Dobbin MH, Bergevin K. The role of oxygen mass transfer in
                         the erosion-corrosion of slurry pipelines. Corrosion, 1986; 42: 514–21.
                      27.  Berger FP, Hau K-FFL. Mass transfer in turbulent pipe flow measured by the
                         electrochemical method. International Journal of Heat and Mass Transfer, 1977; 20:
                         1185–94.
                      28.  Postlethwaite J, Nesic S. Erosion-corrosion in single and multiphase flow. In:
                         Revie RW, ed. Uhlig’s Corrosion Handbook. NewYork, N.Y.: Wiley-Interscience,
                         2000; 249–72.
                      29.  Heitz E. Chemo-mechanical effects of flow on corrosion. In: Kennelley KJ,
                         Hausler RH, Silverman DC, eds. Flow-Induced Corrosion: Fundamental Studies
                         and Industry Experience. Houston, Tex.: NACE International, 1991; 1–29.
                      30.  Lotz U. Velocity effects in flow induced corrosion. In: Kennelley KJ, Hausler
                         RH, Silverman DC, eds. Flow-Induced Corrosion: Fundamental Studies and Industry
                         Experience. Houston, Tex.: NACE International, 1991; 8-1–8-22.
                      31.  Syrett BC. Erosion-corrosion of copper-nickel alloys in sea water and other
                         aqueous environments—A literature review. Corrosion, 1976; 32: 242–52.
                      32.  Dawson  JL,  Shih  CC.  Corrosion  under  flowing  conditions—An  overview
                         and model. In: Kennelley KJ, Hausler RH, Silverman DC, eds. Flow-Induced
                         Corrosion: Fundamental Studies and Industry Experience. Houston, Tex.: NACE
                         International, 1991; 2-1–2-12.
                      33.  Weber  J.  Flow  induced  corrosion:  25  years  of  industrial  research.  British
                         Corrosion Journal, 1992; 27: 193–9.
                      34.  Chexal B, Horowitz J, Dooley B, Millett P, Wood C, Jones R. Flow-Accelerated
                         Corrosion in Power Plants, Revision 1. EPRI TR-106611-R1. Palo Alto, Calif.:
                         Electric Power Research Institute, 1998.
                      35.  Knapp RT, Daily JW, Hammitt FG. Cavitation. New York, N.Y.: McGraw-Hill,
                         1970.
                      36.  Senocak I. Computational Methodology for the Simulation of Turbulent Cavitating
                         Flows. Gainesville, FL:University of Florida, 2002.
                      37.  Staehle RW. Lifetime Prediction of materials in environments. In: Revie RW, ed.
                         Uhlig’s Corrosion Handbook. New York, N.Y.: Wiley-Interscience, 2000; 27–84.