Contact angle and corrosion of a Water – CO2 system on X70 and S41500 at 278 K and pressures up to 20 MPa

Abstract Interfacial properties related to wettability and corrosion in CO2 transport pipelines are experimentally determined by the sessile and the pendant drop methods. The contact angle of a water drop in a compressed CO2 atmosphere is analyzed on an X70 pipeline carbon steel and compared to that on a martensitic steel S41500 to elucidate the effect of corrosion process on active wetting behaviour. The measurements are performed with liquid CO2 at 278 K and pressures ranging from 5 to 20 MPa. The results show that the contact angle (CA) increases with pressure from 132° to 143° for S41500 and from 117° to 137° for X70 and decreases with drop age by 20° to 24° regardless of the pressure and of the fact that corrosion only occurs on X70, which is confirmed by scanning electron microscopy, element mapping and energy dispersive x-ray spectrometry (EDS) analysis. At higher pressure, the contact angles on both materials converge. Further, related properties like density and interfacial tension (IFT) were determined. CO2 - saturated water has a higher density than pure water: At 5 MPa saturated water reaches a density of 1017 k g ⋅ m - 3 and at 20 MPa 1026 k g ⋅ m - 3 compared to pure water with a density of 1002 k g ⋅ m - 3 and 1009 k g ⋅ m - 3 , respectively. In this pressure range the IFT drops from 33 m N ⋅ m - 1 at 5 MPa to 23 m N ⋅ m - 1 at 20 MPa.