The Open Petroleum Engineering Journal

2018, 11 : 1-13
Published online 2018 February 28. DOI: 10.2174/1874834101811010001
Publisher ID: TOPEJ-11-1

RESEARCH ARTICLE
Corrosion Behavior of 3% Cr Casing Steel in CO-Containing Environment: A Case Study

Lin Xu1,3 , Jie Xu2 , Ming-biao Xu3, * , Si-yang Li4 , Shuai Liu4 , Yue Huang3 and Fu-chang You5

* Address correspondence to this authors at the Cooperative Innovation Center of Unconventional Oil and Gas, No. 111, Daxue Road, Caidian District, Wuhan, 430100, China; Tel: +8613567661648; Fax: +86 716 8060863; E-mail: xuhu_11@yeah.net

ABSTRACT

Introduction:

The production casing of 3% Cr steel has encountered severe internal corrosion in Huizhou Oilfield. To disclose corrosion behavior of inner casing, a series of corrosion exposure tests were systematically conducted on 3% Cr coupons in terms of in-field conditions.

Material and Methods:

Influence of exposure time, temperature, and water-cut on the CO2 corrosion of 3% Cr steel was investigated, and analyses on weight loss, composition and morphology of corrosion product, and Tafel polarization curves were further carried out.

Result:

The results showed that the corrosion rate of 3% Cr steel increased with increasing temperature, but such trend descended when the temperature exceeded 65°C due to formation of an compact and adherent corrosion product film on the surface of 3% Cr coupons. While varying exposure time from 7 days to 14 days, the corrosion rate decreased, and the Cr and O enrichment was determined in the corrosion products. The corrosion rate of 3% Cr steel increased with a continuous increment of water-cuts, especially when the water-cut was larger than 40%.

Conclusion:

The localized corrosion can happen at the lower water-cut due to the presence of amorphous films. The main corrosion products were FeCO3, Cr5O12, Fe2O3, and Fe-Cr. Entry of CO2 to the simulated formation water caused an increase in the anodic Tafel slope, and accelerated dissolution of 3% Cr steel.

Keywords:

3% Cr steel, Casing corrosion, CO environment, Corrosion product film, Water-cut, Tafel polarization curve.