S. Nesic, Key issues related to modelling of internal corrosion of oil and gas pipelines -A review, Corrosion Science, vol.49, pp.4308-4338, 2007.

A. U. Malik, P. C. Mayan-kutty, N. A. Siddiqi, I. N. Andijani, and S. Ahmed, The influence of pH and chloride concentration on the corrosion behaviour of AISI 316L steel in aqueous solutions, Corrosion Science, vol.33, pp.1809-1827, 1992.

F. Mancia, The effect of environmental modification on the sulphide stress corrosion cracking resistance of 13Cr martensitic stainless steel in H 2 S-CO 2 -Cl -systems, Corrosion Science, vol.27, pp.1225-1237, 1987.

J. E. Truman, The influence of chloride content, pH and temperature of test solution on the occurrence of stress corrosion cracking with austenitic stainless steel, Corrosion Science, vol.17, pp.737-746, 1977.

P. Sury, Activation pH and susceptibility to hydrogen assisted stress corrosion cracking of martensitic stainless steels in sulphate solutions, Corrosion Science, vol.20, pp.281-292, 1980.

C. Plennevaux, N. Ferrando, J. Kittel, M. R. Bonis, T. Cassagne et al., pH prediction in concentrated aqueous solutions under high pressure of acid gases and high temperature, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02420555

J. E. Oddo and M. B. Tomson, Simplified calculation of CaCO 3 saturation at high-temperatures and pressures in brine solutions, Journal of Petroleum Technology, vol.34, pp.1583-1590, 1982.

D. A. Palmer and R. Van-eldik, The chemistry of metal carbonato and carbon dioxide complexes, Chemical Reviews, vol.83, pp.651-731, 1983.

N. Standard and M. , CO 2 corrosion rate calculation model, 2005.

R. F. Weiss, The solubility of nitrogen, oxygen and argon in water and seawater, Deep Sea Research and Oceanographic Abstracts, vol.17, pp.721-735, 1970.

B. E. Roberts and P. R. Tremaine, Vapour liquid equilibrium calculations for dilute aqueous solutions of CO 2 , H 2 S, NH 3 and NaOH to 300°C, The Canadian Journal of Chemical Engineering, vol.63, pp.294-300, 1985.

J. J. Carroll and A. E. Mather, The solubility of hydrogen sulphide in water from 0 to 90°C and pressures to 1 MPa, Geochimica et Cosmochimica Acta, vol.53, pp.1163-1170, 1989.

O. M. Suleimenov and R. E. Krupp, Solubility of Hydrogen-Sulfide in Pure Water and in NaCl Solutions, from 20-Degrees-C to 320-Degrees-C and at Saturation Pressures, Geochimica et Cosmochimica Acta, vol.58, pp.2433-2444, 1994.

E. Hogfeldt and . Iupac, Stability Constants of Metal-Ion Complexes, Part A: Inorganic Ligands, 1982.

M. Nordsveen, S. Nesic, R. Nyborg, and A. Stangeland, A mechanistic model for carbon dioxide corrosion of mild steel in the presence of protective iron carbonate films -Part 1: Theory and verification, Corrosion, vol.59, pp.443-456, 2003.

J. J. Carroll, What is Henry's law?, Chemical Engineering Progress, vol.87, p.9, 1991.

M. F. Mohamed, A. M. Nor, M. F. Suhor, M. Singer, Y. S. Choi et al., Water chemistry for corrosion prediction in high pressure CO 2 environments, NACE International, issue.375, 2011.

J. L. Nelson and R. V. Reddy, Selecting representative laboratory test conditions for fit-for-purpose OCTG material evaluations, SPE, vol.97576, 2005.

J. C. De-hemptinne, A. Dhima, and S. Shakir, The Henry constant for 20 hydrocarbons, CO 2 and H 2 S in water as a function of pressure and temperature, Fourteenth symposium on Thermophysical Properties, 2000.

D. M. Austgen, G. T. Rochelle, and C. C. Chen, Model of vapor-liquid equilibria for aqueous acid gasalkanolamine systems .2. Representation of H 2 S and CO 2 solubility in aqueous MDEA and CO 2 solubility in aqueous mixtures of MDEA with MEA or DEA, Industrial & Engineering Chemistry Research, vol.30, pp.543-555, 1991.

F. J. Millero, The thermodynamics and kinetics of the hydrogen-sulfide system in natural-waters, Marine Chemistry, vol.18, pp.121-147, 1986.

G. Olofsson and L. G. Hepler, Thermodynamics of ionization of water over wide ranges of temperature and pressure, Journal of Solution Chemistry, vol.4, pp.127-143, 1975.

C. S. Patterson, G. H. Slocum, R. H. Busey, and R. E. Mesmer, Carbonate equilibria in hydrothermal systems: first ionization of carbonic acid in NaCl media to 300°C, Geochimica et Cosmochimica Acta, vol.46, pp.1653-1663, 1982.

J. C. Peiper and K. S. Pitzer, Thermodynamics of aqueous carbonate solutions including mixtures of sodium-carbonate, bicarbonate, and chloride, Journal of Chemical Thermodynamics, vol.14, pp.613-638, 1982.

I. Soreide and C. H. Whitson, Peng-Robinson predictions for hydrocarbons, CO 2 , N 2 , and H 2 S with pure water and NaCI brine, Fluid Phase Equilibria, vol.77, pp.217-240, 1992.

K. S. Pitzer, Thermodynamics of electrolytes. I. Theoretical basis and general equations, The Journal of Physical Chemistry, vol.77, pp.268-277, 1973.

K. S. Pitzer, J. C. Peiper, and R. H. Busey, Thermodynamic properties of aqueous sodium-chloride solutions, Journal of Physical and Chemical Reference Data, vol.13, pp.1-102, 1984.

J. L. Crolet and M. R. Bonis, pH measurements under high-pressures of CO 2 and H 2 S, Materials performance, vol.23, pp.35-42, 1984.

H. Ng, C. Chen, and H. Schroeder, Water content of natural gas systems containing acid gas, GPA project 945, 2001.

B. Rumpf, H. Nicolaisen, C. Ocal, and G. Maurer, Solubility of carbon-dioxide in aqueous-solutions of sodium-chloride -Experimental results and correlation, Journal of Solution Chemistry, vol.23, pp.431-448, 1994.

Z. Duan and R. Sun, An improved model calculating CO 2 solubility in pure water and aqueous NaCl solutions from 273 to 533 K and from 0 to 2000 bar, Chemical Geology, vol.193, pp.257-271, 2003.

B. Meyssami, M. O. Balaban, and A. A. Teixeira, Prediction of pH in Model Systems Pressurized with Carbon-Dioxide, Biotechnology Progress, vol.8, pp.149-154, 1992.

G. Hinds, P. Cooling, A. Wain, S. Zhou, and A. Turnbull, Technical note : measurements of pH in concentrated brines, Corrosion, vol.65, pp.635-702, 2009.

S. Takenouchi and G. C. Kennedy, The solubility of carbon dioxide in NaCl solutions at high temperatures and pressures, American Journal of Science, vol.263, pp.445-454, 1965.