Corrosion control and inhibition mechanism of sodium polyphosphate on highly eroded cement coating pipe surfaces

References

L.S. McNeill, M. Edwards, Phosphate inhibitors and red water in stagnant iron pipes, J. Environ. Eng-ASCE, 126 (2000) 1096– 1102.
S. Joanna, R.S. Urszula, P. Paweł, N. Jacek, Corrosion in drinking water pipes: The importance of green rusts, Water Res., 46 (2012) 1–10.
B.M.R. Appenzeller, M. Battea, L. Mathieu, J.C. Block, V. Lakhoussine, J. Cavard, D. Gatel, Effect of adding phosphate to drinking water on bacterial growth in slightly and highly corroded pipes, Water Res., 35 (2001) 1100–1105.
X.X. Li, H.B. Wang, C. Hu, M. Yang, H.Y. Hu, J.F. Niu, Characteristics of biofilms and iron corrosion scales with ground and surface waters in drinking water distribution systems, Corros. Sci., 90 (2015) 331–339.
H. Wang, C. Hu, X. Hu, M. Yang, J. Qu, Effects of disinfectant and biofilm on the corrosion of cast iron pipes in a reclaimed water distribution system, Water Res., 46 (2012) 1070–1078.
S.M. Williams, Use of sodium silicate and sodium polyphosphate to control water quality problems, Water Sci. Tech-Water sup., 8 (1990) 195–198.
Y. Zhu, H.B. Wang, X.X. Li, C. Hu, M. Yang, J.H. Qu, Characterization of biofilm and corrosion of cast iron pipes in drinking water distribution system with UV/Cl₂ disinfection, Water Res., 60 (2014) 174 –181.
G.H. Koch, M.P.H. Brongers, N.G. Thompson, Y.P. Virmani, J.H. Payer, Corrosion costs and preventive strategies in the United States. NACE International. http://isddc.dot.gov/OLPFiles/FHWA/011536.pdf, 2002.
Y. Chen, G. Chen, Investigation and analysis on quality of water from urban supply net in Shanghai, China Water Waste., 18 (2002) 32–34.
S.V. Dorozhkin, Calcium orthophosphate coatings, films and layers, Prog. Biomater., 1 (2012) 1–40.
K.H. Goh, T.T. Lim, P.C. Chui, Evaluation of the effect of dosage, pH and contact time on high-dose phosphate inhibition for copper corrosion control using response surface methodology (RSM), Corros. Sci., 50 (2008) 918–927.
M.B. Valcarce, M. Vázquez, Phosphate ions used as green inhibitor against copper corrosion in tap water, Corros. Sci., 52 (2010) 1413–1420.
L. Yohai, W.H. Schreiner, M. Vázquez, M.B. Valcarce, Phosphate ions as inhibiting agents for copper corrosion in chlorinated tap water, Mater. Chem. Phys., 139 (2013) 817– 824
L. Yohai, M. Vázquez, M.B. Valcarce, Brass corrosion in tap water distribution systems inhibited by phosphate ions, Corros. Sci., 53 (2011) 1130–1136.
D.E. Abd-El-Khalek, B.A. Abd-El-Nabey, Evaluation of sodium hexametaphosphate as scale and corrosion inhibitor in cooling water using electrochemical techniques, Desalination, 311 (2013) 227–233.
T.K. Rout, N. Bandyopadhyay, T. Venugopalan, Polyphosphate coated steel sheet for superior corrosion resistance, Surf. Coat. Tech., 201 (2006) 1022–1030.
M. Edwards, L. Hidmi, D. Gladwell, Phosphate inhibition of soluble copper corrosion by-product release, Corros. Sci., 44 (2002) 1057–1071.
N. Souissi, E. Triki, A chemiometric approach for phosphate inhibition of copper corrosion in aqueous media, J. Mater. Sci., 42 (2007) 3259–3265.
A.A. Alshehri, S.J. Duranceau, J.S. Taylor, Investigating iron release in distribution systems with blend variations of source waters and phosphate inhibitors, Desal. Water Treat., 8 (2009) 211–220.
A.F. Cantor, C.D. Denig, R.R. Vela, Use of polyphosphate in corrosion control, J. AWWA, 92 (2000) 95–102.
D.A. Lytle, V.L. Snoeyink, Effect of ortho-and polyphosphates on the properties of iron particles and suspensions, J. AWWA, 94 (2002) 87–99.
I.M. Zin, S.B. Lyon, V.I. Pokhmurskii, Corrosion control of galvanized steel using a phosphate/calcium ion inhibitor mixture, Corros. Sci., 45 (2003) 777–788.
L. Mcneill, M. Edwards, Phosphate inhibitor use at US utilities, J. AWWA, 94 (2002) 57–63.
A.A. Elmel, B. Angleraud, E. Gautron, XPS study of the surface composition modification of nc-TiC/C nanocomposite films under in situ argon ion bombardment, Thin Solid Films, 519 (2011) 3982–3985.
D. Ensling, M. Stjerndahl, A. Nytén, A comparative XPS surface study of Li₂FeSiO₄/C cycled with LiTFSI-and LiPF6-based electrolytes, J. Mater. Chem., 19 (2009) 82–88.
J.C. Lamb III, R. Eliassen, Mechanism of corrosion inhibition by sodium metaphosphate glass, J. AWWA, 46 (1954) 445.
M. Kamrath, P. Mrozek, A. Wieckowski, Composition depth profiles of potential-dependent orthophosphate film formation on iron using Auger electron spectroscopy, Langmuir, 9 (1993) 1016–1023.
M. Koudelka, J. Sanchez, J. Augustyński, Nature of surface films formed on iron in aggressive and inhibiting polyphosphate solutions, J. Electrochem. Soc., 129 (1982) 1186–1191.