Integrated Communication System Challenges- âA ... - NCE Subsea
Integrated Communication System Challenges- âA ... - NCE Subsea
Integrated Communication System Challenges- âA ... - NCE Subsea
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<strong>Integrated</strong> <strong>Communication</strong> <strong>System</strong> <strong>Challenges</strong>-“A new paradigm for subsea surveillance & control”Svein Omdal, R&D Task Manager, Technology & New Energy
Future subsea technology demands• New subsea and subsurface technology and capability• New functionality from subsea sensor systems• The next generation of subsea fields and subsea IOR willdemand more data from subsea systems• What technology will be able to meet these demands in a reliableway?
<strong>Integrated</strong> <strong>Subsea</strong> <strong>System</strong> - Functionality* High reliability and operability* High level of flexibility* High bandwidth
High capacity controlTelecombased <strong>Subsea</strong> <strong>System</strong> InfrastructureCurrent situation (bottleneck):• Limited bandwidth (2400 b/s)• Proprietary protocolsValue adding sensors can not be utilized• Total system power ~ 80 kW,10 kW @ each subsea node• <strong>Communication</strong> capacity 120 Gb/s• <strong>Subsea</strong> node with integratedrouter functionality<strong>Subsea</strong> node(hub) is new !!!
StatoilHydro operated
<strong>Subsea</strong> Technology implementation• Implementation of newtechnology pays off.• New tools and systems arebeing developed.• We can together take the nextsteps to new depths and newhorizons with higher reservoirrecovery.Svein Omdalsom@StatoilHydro.com
Fiber Optic Technology implementation