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Towards an H

2011 
Due to H2 S pressure build-up in annulus, the use of sour service steel grades is required in some cases. For ultra deep water fields where the flexible pipe top tension is critical, high weight of the structural steel layers combined with lower mechanical properties (about 950MPa) of the sour grade materials is a disadvantage. The generic flexible pipe design avoids any direct contact between the bore environment (production fluids, injection fluids, etc) and the steel layers of the flexible pipe. However, diffusion of active components such as water, carbon dioxide, hydrogen sulfide, etc, through the thermoplastic sheaths could lead to corrosion exposure of metallic layers between the thermoplastic sheaths. In order to reduce the weight of the flexible pipe structure to reduce riser top tension, high strength grade steel layers (>1200MPa) can be used with reduced thickness, considering that the steel layers will not be exposed to H2 S coming from the bore fluid. This is now achievable even when H2 S is present in the bore by use of a new reactive polymer layer, which will ensure a H2 S free environment in the flexible pipe annulus. The new “Anti-H2 Slayer will chemically react with the H2 S, leading to a complete absence of H2 S exposure to steel layers during the service life of the pipe. In addition, the “Anti-H2 Slayer makes it possible to propose flexible pipes for applications with high H2 S content for which no acceptable solution would otherwise be found. This paper will present the theoretical background supporting the new Anti-H2 S layer concept, along with the qualification works carried out both at laboratory scale and on full flexible pipe structures. It will also focus on the design/calculation methodology applicable to this new sheath. Introduction of the “Anti-H2 Slayer results in that: - Flexible pipes can now be proposed for applications with high H2 S contents; - Sweet service high strength steel grades can be used in flexible pipe annulus even with the presence of H2 S into the bore of the pipe; - The weight of the flexible pipe is reduced.Copyright © 2011 by ASME
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