saipem technology requirements - citeph.fr 2017.pdf · paris, 16th january 2017 2 saipem technology...
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2Paris, 16th January 2017
Saipem Technology RequirementsSaipem in brief
Engineering & Construction Drilling
Offshore pipe laying
Offshore Works
OnshorePlants
Onshorepipe laying
FloatingPlatforms
Offshore drilling
Onshoredrilling
10,5 B$ revenues - 13,9 B$ Blacklog - 41 000 Staff in 60 countries - 9 fabrication Yards -20 engineering and project centers
OnshorePlants
Onshorepipe laying
Offshore drilling
Onshoredrilling
3Paris, 16th January 2017
Saipem Technology RequirementsSubjects of interest
Subsea Risers Umbilicals& Flowlines Welding Non-Destructive Testing Polymer coating Pipeline cladding Insulation materials Deepwater buoyancy Active heating Monitoring
Floating Offshore Weather downtime Surveying Anchoring systems Execution time reduction Process intensification Energy efficiency Heat exchangers Compact separation LNG safety
Subsea Technology Compact separation Water treatment Chemical handling Sand & scale handling Quality sensors Module handling Power distribution Subsea connectors Data management Life of Field Subsea Robotics
4Paris, 16th January 2017
Saipem Technology RequirementsSubjects of interest
Subsea Risers Umbilicals& Flowlines Welding Non-Destructive Testing Polymer coating Pipeline cladding Insulation materials Deepwater buoyancy Active heating Monitoring
Floating Offshore Weather downtime Surveying Anchoring systems Execution time reduction Process intensification Energy efficiency Heat exchangers Compact separation LNG safety
Subsea Technology Compact separation Water treatment Chemical handling Sand & scale handling Quality sensors Module handling Power distribution Subsea connectors Data management Life of Field Subsea Robotics
5Paris, 16th January 2017
Technology NeedsObjectives
1. reduce project costs
2. decrease project risks
3. increase project valueCITEPH N° Leader Description Increased Value
CITEPH-42-2014 BS COATING Development of a monolayer epoxy field joint coating pipeline systems
CITEPH-13-2015 CEMENTYS Development and qualification of a Fiber Optics Sensor riser monitoring
CITEPH-23-2017 ACOEM definition of a Health and Usage Monitoring System Life prediction
Année Leader Description Cost reduction
CITEPH-17-2016 SUBSEA TECHdevelopment of an Unmanned Surface Vehicle capable of deploying and inspection call Remotely-Operated Vehicle
increase efficiency of ROV operations
CITEPH-20-2017 SINGULARITY INSIGHT
development head high handless communication device with remotely located experts
increase maintenance efficiency
CITEPH-07-2017 PRINCIPIAConception of a mooring system where wire cables are directly connected to a floating unit
decrease anchoringinstallation costs
CITEPH N° Leader Description Risk reductionCITEPH-40-2014 HYDROCEAN Development of a calculation code to simulate heavy parcel lifting heavy lifts
CITEPH-07-2015 CERGExperimental study of vertical upward two-phase flows
severe slugging
CITEPH-11-2015 IFREMER predict the lifetime of synthetic fibre ropes cycling over sheaves. installation
CITEPH-32-2016 ACTIMAR multivariate analysis methods of Metocean parameters weather downtime
CITEPH-05-2017 PRINCIPIAstudy of Vortex Induced Vibrations and Wake Induced Oscillations interactions riser design
CITEPH-09-2017 VIBRATEC Study of Acoustic-Induced Vibrations flare system design
6Paris, 16th January 2017 6Paris, 16th January 2017
Selection Criterias:
• Relevance to Saipem business• Potential• Maturity : proven concept (TRL>4) • Short Duration (1-2 years)• Limited Budget (200-400 k€)
Contact :
Thierry DelahayeInnovation & Technology Development
+ 33 1 61 37 64 [email protected]