Tahiti Spar as a Wet Tree Concept

Williams Field Services (WFS) use of the classic Spar hull form for the deepwater field development projects is the first classic Spar hull since ExxonMobil installed the Diana/Hoover Spar in 2000. Since that time, 14 Truss Spars and one Cell Spar have been installed. Learnings from those Spars along with increases in the metocean condition since 2000, significant increases in topside payload during detailed design, support of the five initial SCRs on a porch at the keel plus the decision to fabricate the hull in a US graving dock provided new challenges for the Naval Architects from design through to hull installation. The paper discusses the key drivers, constraints and criteria that had to be reconciled into a floating system with acceptable global motions, acceptable horizontal trim and robust characteristics for changes in topside payload and CGs. Examples of these sometimes conflicting design requirements include: the increased hull freeboard which was driven by the new metocean condition which then led to a higher topside VCG, a 30% increase in the topside's maximum operating payload between the end of FEED and midway into final design yet the depth and length of the graving dock dictated that these changes had to be accommodated without increasing either the diameter or draft of the hull. This paper presents the challenging results of the model tests and their impacts on the design of the mooring system as well as the very close tolerances in trim and stability for the tow out of the graving dock and then to site.

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The Spar Platform – Transforming Deepwater Development

Sablok

Weaver

Halkyard

2020

Day 2 Tue, May 05, 2020

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This paper reviews the evolution of spar designs, focusing on the progression of work that ultimately lead to the application of this new concept to the oil industry. This papers updates and expands on a previous paper by one of the co-authors. This paper discusses the evolution of spar designs from "classic" deep draft caisson designs to the truss spar and the cell spar. The paper discusses the reasons the spar was successful in the first place, and how its design has been tailored to varying field development requirements over the years. It discusses specific considerations in supporting risers from spars, and the unique motion characteristics in waves and currents. The simplicity of the early spar hulls is discussed. Finally, the role of key players especially the inventor Ed Horton that helped make the history of the spar a successful one is discussed. The spar is the only successful dry tree solution for deep water production that can successfully operate in the deepest fields today and in the most severe environments. Its deep draft results in natural periods outside the range of waves, which has led to its wide acceptance for different field scenarios. The largest disadvantage of the spar is arguably the logistics of deck installation, which normally requires an offshore heavy lift. The paper discusses the research that was done on heavy topsides floatover for the spar, and the successful floatover operations both offshore and inshore. The paper provides a unique look at the history and evolution of this concept showing how the idea originated and how the design was improved and adapted as data on its performance became available and new requirements emerged.

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Tahiti Spar as a Wet Tree Concept

Cited by 3 publications

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Gulf of Mexico Wet Tree Deepwater Riser Concepts with Sour Service

Gulf of Mexico Wet Tree Deepwater Riser Concepts with Sour Service

Gulfstar - Naval Architecture From Design to Hull Installation

The Spar Platform – Transforming Deepwater Development

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