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11106 Performance of Tantalum-Surface Alloy on Stainless Steel and Multiple Corrosion Resistant Alloys in Laboratory Evaluation of Deep Well Acidizing Environments

Product Number: 51300-11106-SG
ISBN: 11106 2011 CP
Author: Brian Chambers, Ph.D., Anand Venkatesh, Ph.D., and Dean Gambale
Publication Date: 2011
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This paper describes the results of a laboratory study evaluating corrosion resistance of a tantalum surface alloy on stainless steel and multiple corrosion resistant alloys in a laboratory simulation of two deep well acidizing environments. Acidizing is a common practice in oil production where wellstimulation acids are pumped through tubular goods into an oil reservoir in order to remove formation damage, increase porosity in the formation, and clean deposits from tubulars. These acids can cause high corrosion rates on nearly every alloy utilized in production. General and localized corrosion susceptibility of alloys 316L (UNS S31603), Ti 6-4 (UNS R56400), Ti 6-2-4-6 (UNS R56260), C276 (UNS N10276) and a tantalum (Ta) surface alloy on 316L in high temperature mineral and organic acids was assessed. The two acidizing environments that were studied included 10% acetic acid and a mixture of 10% acetic acid and 10% hydrochloric acid with 15 psia (0.1 MPa) hydrogen sulfide (H2S) at 450 °F (232 °C). The paper also presents the possible use of tantalum surface alloys on commonly employed steels in the oilfield for improved resistance to extreme environments where nickel and titanium alloys fare poorly.

Key words: Acidizing, HCl, Acetic Acid, Ti 6-4, Ti 6-2-4-6, C276, Tantalum, Surface Alloy
This paper describes the results of a laboratory study evaluating corrosion resistance of a tantalum surface alloy on stainless steel and multiple corrosion resistant alloys in a laboratory simulation of two deep well acidizing environments. Acidizing is a common practice in oil production where wellstimulation acids are pumped through tubular goods into an oil reservoir in order to remove formation damage, increase porosity in the formation, and clean deposits from tubulars. These acids can cause high corrosion rates on nearly every alloy utilized in production. General and localized corrosion susceptibility of alloys 316L (UNS S31603), Ti 6-4 (UNS R56400), Ti 6-2-4-6 (UNS R56260), C276 (UNS N10276) and a tantalum (Ta) surface alloy on 316L in high temperature mineral and organic acids was assessed. The two acidizing environments that were studied included 10% acetic acid and a mixture of 10% acetic acid and 10% hydrochloric acid with 15 psia (0.1 MPa) hydrogen sulfide (H2S) at 450 °F (232 °C). The paper also presents the possible use of tantalum surface alloys on commonly employed steels in the oilfield for improved resistance to extreme environments where nickel and titanium alloys fare poorly.

Key words: Acidizing, HCl, Acetic Acid, Ti 6-4, Ti 6-2-4-6, C276, Tantalum, Surface Alloy
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