hm&e technologies for future naval ships -...
TRANSCRIPT
April 2012 Approved for Public Release
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HM&E Technologies
for Future Naval Ships
Marine Machinery Association Spring Meeting
Pentagon City, Arlington, VA
April 10, 2012
Dr. Norbert Doerry
Technical Director, SEA 05 Technology Group
SEA05TD
202-781-2520
NAVSEA Corporate Goals
• Build an affordable future
Fleet
• Sustain today’s Fleet
efficiently and effectively
• Enable our People
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Building an Affordable Future Fleet
in an Evolving World
• Face uncertain times
– The threat is evolving
– Our technology is evolving
– Lean times ahead
• Ships and their systems
must be robust, flexible
and adaptable
– Shouldn’t optimize a point
design to a fixed set of
requirements
– HM&E Systems must
support changing
requirements
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Open
Data
Cable
Open
Structure
Open
Lighting
Open
HVAC
Open
Outfitting
Open
Power
Flexible
Infrastructure (FI)
Design Strategies
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Requirements
Fixed
Requirements
Changing
Design
Fixed
Design
Flexible
Robust Design (service life allowance
Build in capability to meet
threat over service life)
Optimized
Point Design (many commercial ships
& Navy Auxiliaries)
Modular
Adaptable (Mission Modules
Flexible Infrastructure etc.
Morph ship to match threat
Over service life)
(Little Incentive)
A combination of strategies is likely optimal
Need to analyze
“Requirements Risk”
CHANGING REQUIREMENTS
Affordability adapting to
changing requirements
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Cost Schedule Performance
Product Lines Open
Architecture
Specifications
& Standards
Modular Adaptable
Ship
Technologies
Modular Adaptable Ship
Technology Examples
• “Modular Hull Ship” (bow, stern,
variable Parallel Mid-Body)
• “Mission Bay” (like LCS)
• Container Stacks/Slots/Interfaces
• Weapon/Electronics Modules /
zones
• Aperture Station
• Aircraft, boats, UUV, UAV, USV
• Electronic Modular Enclosures
(EME)
• Flexible Infrastructure
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Open Data Cable
Open
Structure
Open
Lighting
Open HVAC
Open Outfitting
Open Power
Flexible
Infrastructure (FI)Stern Section Bow Section
Stern Section Bow Section
Stern Section Bow Sectionhttp://www.aviationweek.com
Schelde Naval Shipbuilding: Sigma Design Concept
Can a qualified third party add, modify, replace, remove, or provide support for a
component of a system, based only on openly published and available technical
and functional specification of the component of that system?
Open Architecture
• Business practices
• Technical practices
– Open standards
– Published interfaces
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Product Lines
• Specific requirements seldom
known when developing technology
• Traditional Approach – Anticipates specific requirements, but
usually “misses”
– Experiences difficulty matching S&T
completion and Acquisition: “R&D Valley
of Death”
• Product line Approach – Enables affordably and quickly providing
products meeting specific requirements
once those requirements are known
– Bridges the “R&D Valley of Death”
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Science &
Technology
Advanced
Component
Development &
Prototypes
Acquisition
Operational
System
Development
BA-1 to
BA-3
BA-4 BA-5,
SCN, OPN
BA-7,
OPN
Knowledge Creation
(BA-1 through BA-3)
Product Line Definition & Development
(BA-4, BA-7)
Product Dev & Ship Int
BA-5, BA-7, SCN, OPN
Production
SCN, OPN
Product Dev & Ship Int
BA-5, BA-7, SCN, OPN
Production
SCN, OPN
Generic
Multi-Platform
Technology
Specific
Application
Technology
Traditional Approach
Product Line Approach
Product Lines enable manufacturers to quickly
and affordably respond to specific solicitations
with solutions that largely have already been
pre-engineered and de-risked.
Specifications and Standards
• Specifications
– List the requirements for buying an
item
• Standards
– Define interfaces, design criteria,
test methods, practices, and
manufacturing processes
• Key to open architectures and
product lines
– Developed in partnership with
industry
• Standard Ownership
– Industry standards
– Military standards
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Fleet Affordability:
Today and Tomorrow
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LIMITED BUDGET
Cost Schedule Performance
Reduced
Manning
Energy Reduced
Maintenance
Reduced Total
Ownership Cost
Technologies
Reduced
Acquisition Cost
Energy
• Alternate Fuels
• Improved Prime Mover
efficiency
• Reduced Propulsion
Power Demand
• Reduced Mission
Systems and Ship
Systems Power
• Modifying CONOPS
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www.marinelog.com www.marinelog.com
Reduced Manning
• Reduced Workload
• Distance Support
• Automation and
Control
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Reduced Acquisition Cost
• Update specifications and
standards
– Use commercial specifications
and standards where consistent
with naval environment.
– Modify existing or create new
military specifications and
standards to reduce cost impact
of successfully operating in a
naval environment.
• Update architectures
– Electrical Power Systems
– HVAC
– Machinery Control Systems
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Many naval products cannot be purchased
directly from commercial specifications - Naval Environment
- Combat Survivability
- Logistics
Reduced Maintenance
• Condition Based
Maintenance
• Improved Materials
• Improved Reliability
• Longer “service life”
• Improved architectures
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Ship’s Power Propulsion
Traditional
Electric
Drive
with
Integrated
Power
GEN
GEN
GEN
GEN
MtrMD
MtrMD
GEN
GEN
PowerConversion
andDistribution
Reduction
Gear
PowerConversion
andDistribution
Reduction
Gear
Summary
• Affordably Adapting to a Changing Requirements
• Fleet Affordability: Today and Tomorrow
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