Naval power systems technology development roadmap

What is the naval power & energy systems technology development roadmap?

The following is the Naval Power and Energy Systems Technology Development Roadmap, the Naval Sea Systems Command’s strategy to meet future weapon and sensor systems power requirements. The document was released June 26. Today, the U.S. Navy is on the cusp of revolutionary changes in how warfare at sea is conducted.

What is the prime mover product area for naval power systems?

The prime mover product area for naval power systems focuses primarily on diesel engines and gas turbines. Energy recovery and fuel cells are also discussed. Steam turbine prime movers for naval nuclear propulsion applications are not within this roadmap’s purview.

What are the long-term trends leading the development of naval power systems?

This TDR proposes multiple paths to continue providing targets in the face of uncertainty. Long term trends directly leading the development of Naval Power Systems are expected to continue. In general, they are: Navy platforms will require more electric power, on demand, to meet the needs of ever improving mission systems.

What drives naval power system electrical requirements?

Requirements drive development to meet future capabilities. Section II derived requirements analysis identifies two primary drivers of naval power system electrical requirements - the initial introduction of advanced loads such as weapons and sensors and reducing fuel consumption.

What is a naval power system?

A naval power system is subjected to a shock and vibration environment that ranges from calm peacetime transits to battle damage conditions. System redundancy combined with physical separation of components and multiple system distribution paths are inherently required to continue ship operation with flooding, fire, and/or battle damage.

How will naval power conversion technology influence the selection of interfaces?

However, the concepts and underlying technologies, such as advance power electronic devices, transformers, converter topologies and control philosophies, and passive filtering improvements developed by industry will provide the basis for naval power conversion equipment and should influence the direction the Navy goes in selection of interfaces.