Optimization Applied to Buzios Flexible Riser Systems and Subsea Layout

Gasparetto, Vinicius; Hernalsteens, Thierry; Britto, João Francisco Fleck Heck; Leao, Joab Flavio Araujo; Santos, Thiago Duarte Fonseca dos; Oliveira, R. Caldeira de

doi:10.4043/30972-ms

Day 1 Mon, August 16, 2021 2021

DOI: 10.4043/30972-ms

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Optimization Applied to Buzios Flexible Riser Systems and Subsea Layout

Vinicius Gasparetto

Thierry Hernalsteens

João Francisco Fleck Heck Britto

et al.

Abstract: Buzios is a super-giant ultra-deep-water pre-salt oil and gas field located in the Santos Basin off Brazil's Southeastern coast. There are four production systems already installed in the field. Designed to use flexible pipes to tie back the production and injection wells to the FPSOs (Floating Production Storage and Offloading), these systems have taken advantage from several lessons learned in the previous projects installed by Petrobras in Santos Basin pre-salt areas since 2010. This knowledge, combined wit… Show more

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Cited by 4 publications

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Buzios: The Largest Ultra-Deepwater Oilfield to Date

Oliveira

Tavares

Silva

et al. 2021

Day 1 Mon, August 16, 2021

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The purpose of this paper is to present a general overview of the Buzios field development plan, projects’ features, and main achievements so far. The development plan adopted a strategy to pursue the balance between acceleration and cash flow optimization, to maximize the return on the huge investment on the block acquisition, and the risk management related to developing several Greenfield Projects simultaneously. To reduce reservoir uncertainties, a comprehensive data acquisition plan was crafted and implemented considering: (a) seismic acquisition, (b) drilling, logging and testing several exploratory and appraisal wells, (c) massive rock and fluid data sampling along the reservoirs, (d) execution of one Extended Well Test and three Early Production Systems. Additionally, the basic design of wells, subsea systems and Floating Production Storage and Offloading ("FPSO") provided flexibility to cover remaining uncertainties yet present in the Transfer of Rights ("ToR") scope, which allows up to 3,150 billion barrels of oil equivalent ("boe") to be produced. This led to technological challenges that needed to be addressed during project planning. We believe that the innovative solutions applied enhanced currently available technologies and delivered an important legacy to the offshore oil and gas industry. Finally, the results obtained so far, with the ramp-up of Buzios projects 1, 2, 3, and 4 provide evidence of the successful adopted strategy and reinforce the decision of deployment of a fifth FPSO under the scope of the ToR contract. The strong results of the asset led to the acquisition of 90% of the Transfer of Rights Surplus ("ToR+"), together with CNOOC Petroleum Brasil Ltda. (5%) and CNODC Brasil Petróleo e Gás Ltda. (5%), which now paves the way for a second wave of development, including the deployment of up to seven additional FPSOs.

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Buzios: The Largest Ultra-Deepwater Oilfield to Date

Oliveira

Tavares

Silva

et al. 2021

Day 1 Mon, August 16, 2021

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FPU Mooring Footprint Reduction in Buzios Field: Key Driver to its Successful Subsea Layout

Cabral

Silva

Oshiro

et al. 2021

Day 1 Mon, August 16, 2021

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Buzios field development has the potential to implement several production systems due to large reservoir volumes. Considering the oil specification, the drive to use standard solutions already in place in Pre-salt area, associated with the high production indexes of the wells, Petrobras decided to tie back all production wells in satellite configuration. These facts, together with geological hazards in the area, lead to a potentially congested seabed scenario. Hence, FPU positioning has been challenging and demanding innovative engineering solutions to optimize FPU mooring as to overcome these challenges and enable FPU positioning close to wells. This optimization gave birth to new issues, such as risk of clashing between mooring lines and lazy-wave flexible risers. Integrated riser and mooring lines dynamic analysis, together with subsea layout assessment were performed to ensure technical and economic feasibility. Furthermore, due to the Buzios reservoir, well design requirements and subsea layout specificities, all FPU were located on the edge of the reservoir and flexible risers were tied back mainly from only one board of each FPU. Hence, enhancing clearance between bow and stern mooring clusters and the optimization of the risers’ configuration were of paramount importance for enabling most of the risers’ connections on the desirable board. FPU mooring optimization led to up to 30% of mooring lines’ radius reduction (horizontal projection), and an average of up to 500m per flowline reduction, saving CAPEX, OPEX and increasing the return on investment.

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SCC-CO2 Failure Mode: Literature Review and Available Technologies Used to Inspect and Access the Integrity of the Flexible Pipes

Lobo¹,

Ribeiro²

2023

Day 4 Thu, May 04, 2023

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In 2017, after a failure of a flexible riser operating in an environment with high level of CO2, a new failure mode of the flexible pipes was reported: Stress Corrosion Cracking induced by CO2(SCC-CO2). This issue was not considered in the design and manufacturing standards of these equipment. In this context, this paper covers a literature of SCC-CO2 phenomenon. Moreover, the impacts on the flexible pipes due to this failure mode are discussed. Lastly, this research focuses on the current technologies and tools used to inspect and access the integrity of the pipes used on gas injection and production lines. The paper is written based on detailed review of the literature. A set of relevant keywords were used on peer-reviewed journal articles and conference papers mainly available in the OnePetro database. Some recognized books, technical specifications and PhD thesis were also consulted. The papers included in this literature review were selected based on four steps: identification, screening, eligibility and inclusion (Moher et al., 2009). This methodology allowed to find out what is the current state of the art about the topics covered in this study. This detailed review of literature revealed that after the issue reported in 2017, the industry invested in the research of the SCC-CO2 phenomenon. Many studies were conducted in order to investigate what are the main factors that triggers this failure mode on the flexible pipes used for the production and gas injection in the deep-water and ultra-deep-water fields with high levels of contaminants and harsh metaocean conditions. Then, different technologies and tools were developed to inspect the flexible pipes. Operators can use this data to estimate the remaining service life of the lines. There are proven tools that can inspect the gas injection pipes using different non-destructive techniques. However, there is still a gap on the inspections of the annular region of the production flexible pipes. This happens due to the limitation of reading through the thermal insulation layer contained on them. This is very critical because the inspection of the pipe annulus detects if it is dry or flooded. This information is vital to assess the integrity of the structural armors of the flexible pipes.

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Optimization Applied to Buzios Flexible Riser Systems and Subsea Layout

Cited by 4 publications

References 4 publications

Buzios: The Largest Ultra-Deepwater Oilfield to Date

Buzios: The Largest Ultra-Deepwater Oilfield to Date

FPU Mooring Footprint Reduction in Buzios Field: Key Driver to its Successful Subsea Layout

SCC-CO2 Failure Mode: Literature Review and Available Technologies Used to Inspect and Access the Integrity of the Flexible Pipes

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