As part of the ultra-deepwater field development of the Santos Basin, 300km offshore the Brazilian coast, the Sapinhoá and Lula NE pioneering riser system was successfully installed by Subsea 7, acting as a contractor for Petrobras and partners (BG E&P Brasil and Repsol Sinopec Brasil, in Sapinhoá Field, BG E&P Brasil and Petrogal Brasil, in Lula NE Field). The full Engineering, Procurement, Installation and Commissioning (EPIC) project scope comprises the design, fabrication and installation of 4 buoys of 2800 tons moored 250m subsurface, of which 2 connect to the Floating Production, Storage and Offloading unit (FPSO) Cidade de São Paulo and 2 to the FPSO Cidade de Paraty; 27 Steel Catenary Risers (SCRs) with 3.9km each, 27 Pipeline End Terminations (PLETs) and anchorage suction piles at 2140m water depth.This Buoy Supporting Risers (BSR) system concept presents several advantages to overcome the challenges of installing SCRs on ultra-deep waters, such as, allowing decoupling between installation of risers and the production unit, reducing payload on the unit, reduced risks associated with clashes and very small dynamics transmitted from production unit to the risers, resulting in significant less fatigue issues.Due to sour and CO 2 service requirements for the production and water injection risers, it was decided to use mechanically lined pipe for the entire line, with the exception of the top and touch down sections, where metallurgical clad (metclad) pipe was used. Consequently, a significant amount of qualification, testing and inspection associated to welding lined and metclad pipes was required.In order to install Corrosion Resistant Alloys (CRA) lined pipes with a Reel-Lay vessel, a novel methodology for water pressurized spooling and pipelay was developed to mitigate the risk of liner damage during installation. Full-scale pressurized spooling trials were done ahead of the pipelay campaign for testing and validation of this methodology. In addition, analyses were performed to evaluate the BSR system behaviour during SCRs installation and to minimize buoy de-ballasting interventions.This paper describes the faced challenges and solutions engineered in the steel catenary risers' fabrication and installation scopes.