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Flow-accelerated corrosion assessment for SA106 and SA335 pipes with elbows and welds

Dong-Jin Kim, Sung Woo Kim, Jong Yeon Lee, Kyung Mo Kim, Se Beom Oh, Gyeong Geun Lee, Jongbeom Kim, Seong-Sik Hwang, Min Choi, Yun Soo Lim, Sung Hwan Cho, Hong Pyo Kim

2021Nuclear Engineering and Technology13 citationsDOIOpen Access PDF

Abstract

A FAC (flow-accelerated corrosion) test was performed for a straight pipe composed of the SA335 Gr P22 and SA106 Gr B (SA106-SA335-SA106) types of steel with welds as a function of the flow rate in the range of 7–12 m/s at 150 °C and with DO < 5 ppb at pH levels ranging from 7 to 9.5 up to a cumulative test time of 7200 h using the FAC demonstration test facility. Afterward, the experimental pipe was examined destructively to investigate opposite effects as well as entrance effects. In addition, the FAC rate obtained using a pipe specimen with a 50 mm inner diameter was compared with the rate obtained from a rotating cylindrical electrode. The effects of the complicated fluid flows at the elbow and orifice of the pipeline were also evaluated using another test section designed to examine the independent effects of the orifice and the elbow depending on the distance and the combined effects on orifice and elbow. The tests were performed under the following conditions: 130–150 °C, DO < 5 ppb, pH 7 and a flow rate of 3 m/s. The FAC rate was determined using the thickness change obtained from commercial room-temperature ultrasonic testing (UT).

Topics & Concepts

Body orificeVolumetric flow rateMaterials scienceOrifice plateElbowCorrosionFlow measurementComposite materialStructural engineeringMetallurgyMechanicsEngineeringMechanical engineeringSurgeryPhysicsMedicineNon-Destructive Testing TechniquesDrilling and Well EngineeringErosion and Abrasive Machining
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