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For those managing, planning, selecting, implementing, or evaluating buried pipe inspections using Non-Destructive Evaluation (NDE) at nuclear power plant sites. Licensing. Regulations. Inspection. Tools. Analysis.
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The buried or below-grade sections of electric utility steel transmission and distribution structures are often subject to corrosive environments and are not easily accessible for visual inspection. Prior to the publication of this standard, no industry practice existed to help electric utilities determine a prioritized listing of structures to be inspected or that described an inspection and assessment procedure to evaluate below-grade corrosion problems.
Specifying corrosion protection for the offshore wind turbine industry in the European CEN TC219(2) committee. This comprises corrosion protection specification for external as well as internal parts of the turbine foundations.
This paper will briefly discuss the U.S. nuclear buried pipe integrity program, the infrastructure created for information sharing, and the data mining results related to the threat of external corrosion from more than 4,500 inspections on buried pipe at more than 60 power generation sites.
High voltage direct current (HVDC) transmission results in a large direct current will into the earth. This may cause interference on a buried pipeline even though it is far from the earth electrode. In this work, numerical simulation was used to study the mechanism and influencing factors of HVDC interference.
The measurement of induced AC voltages along a pipeline is a primary indicator of electrical safety hazards and AC corrosion risks under operating powerlines. This paper addresses several fallacies, misconceptions and common errors related to the measurement of these AC induced voltages.
This paper outlines the essential features required in a software package that has sufficient capability to accurately predict and mitigate AC induction effects upon pipelines for a majority of rights-of-way.
Expands on the fundamentals of flow-accelerated corrosion and the mechanisms of the various types of this debilitating and costly type of corrosion. The paper discusses system hydrodynamics, materials of construction, operating practices, as well as the impact of water chemistry.
To restrain the failure of plate heat exchanger in customer boiler working fluid, the effect of crevice former type on the corrosion behavior of Type 316L (UNS S31603) stainless steel plate was investigated using electrochemical methods and surface analysis in chloride-containing synthetic tap water.
After a loss of coolant accident a nuclear reactor needs to be flooded, quenching the fuel rods, which would suffer a thermal shock. Six commercial alloys of nuclear interest were tested for resistance to quenching measures after exposure to air at 1200°C for 2 hours.