William Lozinguez scite author profile

William Lozinguez

2Publications

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Saipem (Italy)

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High-Performance DEH-PiPfor Subsea Tiebacks: Theoretical Electrical Model and Performance Measurements

Hallot

D'Amico

Gentil

et al. 2022

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The High-Performance DEH-PiP is a new technology for electrical heating of subsea tieback flowlines, able to be used for long distances thanks to an enhanced electrical efficiency. This paper describes the theoretical electrical model of this technology and its experimental validation. DEH-PiP is a well-known and field-proven technique for subsea flowline heating, but it exhibits a relatively poor electrical efficiency compared to emerging heat-traced PiPs. The approach presented in this paper to solve this drawback has been first to analyze the heat losses within the conventional DEH-PiP, then to design a new outer pipe to decrease dramatically its impedance. A strong effort was spent on the building of an accurate electrical model for the High-Performance DEH-PiP, and finally full-scale electrical tests on a representative prototype were carried out to validate the theoretical model. On the basis of the conventional DEH-PiP technology, specific design modifications were undertaken to enhance the electrical efficiency and thus the flowline step-out in the High-Performance DEH-PiP solution. A specific electrical model was developed and is detailed progressively in this paper from the basic electromagnetics considerations to the complete Finite Element Analysis including the magnetization curves of the pipe steel and the impact of magnetic hysteresis on the heating performances. Dedicated experimental works were conducted to validate the electrical model, on a specific prototype and the test bench associated. The electrical measurement curves are discussed, showing a good correlation between the theory and the experiments, and demonstrating the relevance of the electrical model. The impact of the improved electrical performance on the tieback heated flowline configuration is then discussed. This paper introduces the detailed experimental and modeling work performed to allow for the electrical engineering of a new DEH-PiP design, reaching significantly higher electrical efficiency, in the range of 90%-95%. This new solution allows reduced Greenhouse Gases Emissions by enhanced performance, lower voltage supply level enabling for longer flowlines, and lighter power chains.

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High Performance DEH-PiP: Qualification Status

Lozinguez

Roland

Hallot

et al. 2022

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This paper presents Saipem's qualification activities on its High-Performance version of DEH PiP technology. A reminder of the technology is given as well as an insight into the modifications and improvements performed. Qualification status of the sub-systems specific to the technology is also detailed. DEH PiP technology has now been around since its development and installation by Shell in the early 2000's. Saipem considers that this technology, provided some improvements, is a very competitive option for subsea flowline heating. As a result, qualification activities on an enhanced version of the DEH PiP were started in 2019 to verify and provide evidence that the system will properly perform the function it is designed for, while bringing risks to a minimum level. Several studies and tests have been performed with this intention and are in part presented in this paper. An overview of the technology qualification process is given and is followed by a description of the qualification activities performed on the various sub-systems of the technology. From an electrical point of view for instance, studies and tests were performed for the qualification of an electrical insulation layer, of the global system electrical modelling, and of the system upgrade for performance enhancement. Other qualification activities, like mechanical tests on the "shear stops", are also part of the qualification to validate new conceptual designs and are presented. The activities already performed in the qualification program allowed to improve the technology readiness level of the system and increase confidence in its potential. The next steps and the associated targets for development are also presented. This paper presents Saipem's qualification activities on its High Performance DEH PiP for the first time and hence gives an interesting overview of this technology and its qualification status.

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