Welcome to the Next Generation of All-Electric Subsea Production
Presenting the second generation of
CameronDC from Cameron and
the industry’s first electric SCSSV
from Halliburton
TM
Mark CarterVice President, Business Development
Werner MenzVice President, Technology, Subsea Systems
Cameron Featured Speakers
CameronDC All-Electric Technology Key Benefits
• Improved operability
• Improved environmental characteristics
• Improved offset distances
• Improved condition monitoring capability
• Improved economics
• No hydraulics
CameronDC Developmental Milestones
• 1999 CameronDC Program Launched
• 2004 Successful Pilot Trial 6 Month Operation Simulated 20 Year Life
• 2008 Successful Start World’s First All-Electric Production System
• 2011 Second Generation of CameronDC Launches
Experience and Lessons Learned
Faster Than EH MUX
Faster Than EH MUX
Captured, Analysis Techniques Evolving
Experienced and Addressed
Not Yet Optimized
System Start-Up
Commissioning of Other Trees in Field
Data Acquisition of Performance
Challenges
System Cost
The Bottom Line
The technology of the CameronDC All-Electric System has been proven successfully.
Second Generation of CameronDC All-Electric System
Continuation of design and incorporation of lessons learned from first system installation.
• State-of-the-art communications
• Improved functionality
• Simplification of system architecture
CameronDC Now Uses Fiber Optic Technology
The result:• Integration of proven CAMLAN communications
• Increased data transfer rate
• Open communications architecture
• Plug and play capability
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TM
CameronDC Now has Double the Functionality
The result:• Fewer control modules• Less power required
CameronDC functions
Cost of CameronDC Cluster is Now Comparable to EH MUX
Derived from:• Simplification of system architecture• Improved functionality
Second Generation of CameronDC: System Benefits
State-of-the-art communications
Improved functionality Simplified architecture
Second Generation of CameronDC: Status
• All the benefits of CameronDC at a favorable cost Including:
Improved operability Improved environmental characteristics Improved offset distances Improved condition monitoring
capability Improved economics No hydraulics
• Qualification testing complete, 2011• Second Generation of CameronDC ready for application
Overall System Considerations
Subsea Booster System
High Integrity PressureProtection System
SCSSV
Subsea Distribution System
Subsea Manifold
Subsea Wellhead Tree
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Discover Cameron
For more information regardingCameronDC All-Electric Technology, please visit www.c-a-m.com/otc11
Welcome to the Next Generation of All-Electric Subsea Production
Presenting the second generation of
CameronDC from Cameron and
the industry’s first electric SCSSV
from Halliburton
TM