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The Effects Of Soil Physicochemical Properties, Soil Moisture Content, And Bacteria On Corrosion Behavior Of Buried Pipeline Grade Carbon Steel

Picture for The Effects Of Soil Physicochemical Properties, Soil Moisture Content, And Bacteria On Corrosion Behavior Of Buried Pipeline Grade Carbon Steel
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Product Number: 51321-16916-SG
Author: Fazlollah Madani Sani
Publication Date: 2021
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One of the major causes of failures in buried pipelines has been identified as microbiologically influenced
corrosion (MIC). Globally, the contribution of MIC in total number of buried pipeline failures is estimated
to be between 10% to 70%. This research investigated simultaneously two of the most influential factors
in corrosion of buried pipelines: bacteria and soil moisture content. All test parameters were chosen
based on actual field conditions to have more reliable and attributable results. Sulfate reducing bacteria
(SRB) strain, Desulfovibrio desulfurincans, was used for the experiments. Weight loss experiments were
carried out using API 5L X65 carbon steel in No SRB and With SRB conditions at three different soil
moisture contents in a sandy soil. Results showed that an increase in the soil moisture content decreased
the corrosion rate. The presence of SRB in soil, although increased the rate of corrosion and aggravated
pitting corrosion at low moisture contents, decreased the corrosion rate at higher moisture contents. At
low moisture contents, two layers of corrosion products and at high moisture contents, one layer of
corrosion products formed on the surface of specimens. X-ray diffraction (XRD) analysis was conducted
to analyze the corrosion products.

One of the major causes of failures in buried pipelines has been identified as microbiologically influenced
corrosion (MIC). Globally, the contribution of MIC in total number of buried pipeline failures is estimated
to be between 10% to 70%. This research investigated simultaneously two of the most influential factors
in corrosion of buried pipelines: bacteria and soil moisture content. All test parameters were chosen
based on actual field conditions to have more reliable and attributable results. Sulfate reducing bacteria
(SRB) strain, Desulfovibrio desulfurincans, was used for the experiments. Weight loss experiments were
carried out using API 5L X65 carbon steel in No SRB and With SRB conditions at three different soil
moisture contents in a sandy soil. Results showed that an increase in the soil moisture content decreased
the corrosion rate. The presence of SRB in soil, although increased the rate of corrosion and aggravated
pitting corrosion at low moisture contents, decreased the corrosion rate at higher moisture contents. At
low moisture contents, two layers of corrosion products and at high moisture contents, one layer of
corrosion products formed on the surface of specimens. X-ray diffraction (XRD) analysis was conducted
to analyze the corrosion products.

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51318-10839- Influence of Soil Fungi on Corrosion of Mild Steel Plates

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Author: Dharani, R. / Deepalakshmi, R. / Padma Devi, S.N. / Nithya Meenakshi S. / Nalini, D.
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Five fungal organisms were isolated using Starkey media from the soil of corroded pipeline tank. The influence of these fungal isolates on both rusted and non – rusted mild steel plates were studied for a period of 25 days.
Picture for Failure Investigation of Internal Girth Weld Coating Surface Preparation: A Case Study
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Failure Investigation of Internal Girth Weld Coating Surface Preparation: A Case Study

Product Number: MPWT19-14360
Author: Rashed Alhajri, Yousef Alrayes, Fahad Alhindas, Ghassan Bahamden
Publication Date: 2019
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During the construction of a 56km long 16 in. carbon steel sour gas pipeline, repetitive surface
preparation failures were detected during visual inspection of pipeline girth weld internal surface prior to
coating application. Such failures represented 67% of the total pipeline girth welds and were manifested
by excessive sharp-edges at the root pass. To identify the failure causes, an investigation was
performed through reviewing the pipeline, fabrication and coating application specifications and
procedures, quality control records and performing an extensive visual inspection through an advanced
video robotic crawler on all pipeline girth welds made. Upon investigation analysis, the failures were
caused by sharp-edges in the root pass which were attributed to improper practices during
manufacturing, field fabrication and pre-coating quality control. The failure analysis indicated that the
mechanized Gas Metal Arc Welding process, with the parameters used, was not suitable for internal
girth weld coating application. In addition, a more stringent requirement should be applied to the
acceptable pipe-end diameter tolerance and pre-coating quality control to ensure absence of similar
premature surface preparation failures. The pre-coating quality control can be improved through
utilization of robotic laser contour mapping crawler for precise detection and sizing of unsatisfactory
surface weldment defects, including sharp edges.
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