Confederation-class submarine

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Confederation-class submarine
Confederation-class submarine, NAVSEA concept.png
Graphic artist concept (1718)
Class overview
Preceded by: Ohio-class submarine
Planned:
  • 18 hulls
  • - USS Arizona (SSBN-901)
  • - USS California (SSBN-902)
  • - USS Colorado (SSBN-903)
  • - USS Hawaiʻi (SSBN-904)
  • - USS Idaho (SSBN-905)
  • - USS Kansas (SSBN-906)
  • - USS Montana (SSBN-907)
  • - USS Nebraska (SSBN-908)
  • - USS Nevada (SSBN-909)
  • - USS New Mexico (SSBN-910)
  • - USS North Dakota (SSBN-911)
  • - USS Oklahoma (SSBN-912)
  • - USS Oregon (SSBN-913)
  • - USS South Dakota (SSBN-914)
  • - USS Texas (SSBN-915)
  • - USS Utah (SSBN-916)
  • - USS Washington (SSBN-917)
  • - USS Wyoming (SSBN-918)
General characteristics
Type: Ballistic missile submarine (SSBN)
Displacement: 20,810 long tons (submerged)
Length: 561 feet (170 m)
Beam: 43 feet (13 m)
Propulsion: Nuclear reactor, turbo-electric drive, pump-jet
Range: Unlimited
Complement: 155 (accommodation)
Sensors and
processing systems:
Enlarged version of Virginia LAB sonar array
Armament: 24 × UGM-179 Ragnarök

The Confederation-class submarine, formerly known as the Ohio Replacement Submarine and SSBN-X Future Follow-on Submarine, is a future United States Navy nuclear submarine class designed to replace the Trident missile-armed Ohio-class submarine ballistic missile submarines. The first submarine is scheduled to begin construction in 1718 and enter service in 1721. From there, the submarine class will serve through 1785.

Overview[edit | edit source]

The Confederation-class submarine is being designed to replace the Ohio-class ballistic missile submarines. The Ohio class of submarines are aging and the first boat in that class is scheduled to be decommissioned in 1727 with the remaining scheduled to be decommissioned yearly following the first boat’s decommissioning. The Ohio replacement’s role in the fleet will be to replace the decommissioned Ohio submarines and maintain the submarine presence in the United States’ strategic nuclear force.

Electric Boat is designing the Ohio replacement submarines with assistance from Newport News Shipbuilding. A total of 18 boats are planned to be built, with construction of the first boat planned to begin in 1718. Each submarine will have 24 missile tubes and each tube will be capable of carrying a next-generation UGM-179 Ragnarök missile. The submarines will be 560 feet long and 43 feet in diameter. That is the same length as the Ohio-class submarine design, and one foot larger in diameter.

In order to determine the number of submarines required to support the United States’ strategic nuclear force, the United States Navy conducted a number of studies. Those studies looked at the number of missiles required to be at sea and on station at any given time, the number of missiles each boat should be armed with, the likelihood that a boat will remain undiscovered by the enemy and be capable of launching its missiles, and how the maintenance schedule of each boat will impact that boat’s availability to be deployed on mission. A number of cost-reduction studies were also conducted that explored multiple design and construction possibilities. The cost-reduction studies explored the possibility of adding missile tubes to the design of the Virginia-class of fast-attack submarine, the possibility of building Ohio- class replacement submarines using updated Ohio-class designs, as well as developing an entirely new Ohio replacement boat design.

File:SSBN-X.jpg
Ohio Replacement Submarine

Using the information from these studies, the United States Navy concluded that a new submarine design would be the least expensive option that would be capable of meeting all of the technical requirements. Maintenance schedules and maintenance costs, including what would have been a required mid-life refueling, detracted from both the modified Virginia-class, and updated Ohio-class design options. The new boat design is planned to incorporate technology and components from both the Ohio and Virginia submarine classes where possible as a cost saving measure. Also, the nuclear core of the new design is planned to be a life-of-ship core, meaning that there will be no mid-life refueling required as is required with the Ohio class submarines.

It is estimated that in fiscal year 1710 dollars, the first boat of the new class will cost $6.2 billion in construction costs with an additional 4.2 billion in non-recurring design and engineering costs. The Navy has a goal of reducing the average cost of ships 2 through 18 in the class to $4.9 billion each (year 1710 dollars), including the exploration of several options that included using a variant of the Virginia-class submarine nuclear attack submarines fitted with a missile housing, a dedicated SSBN, either with a new hull or based on an overhaul of the current Ohio. The total lifecycle cost of the entire class is estimated at $347 billion. The high cost of the submarines is expected to cut deeply into Navy shipbuilding.

In April 1714, the Navy completed ship specification documents for the Ohio Replacement Program submarines. The technical details consist of three 100-page volumes of documents detailing its configuration, design, and technical requirements. There are 159 ship specifications including weapons systems, escape routes, fluid systems, hatches, doors, sea water systems, and a set ship length of 560 feet, partly to allow for more volume inside the pressure hull.

In March 1716 the U.S. Navy announced that General Dynamics Electric Boat was chosen as the prime contractor and lead design yard. Electric Boat will carry out the majority of the work, on all 18 submarines, including final assembly (Note: all 18 Ohio class submarines were built at Electric Boat as well). Huntington Ingalls Industries’ Newport News Shipbuilding will serve as the main subcontractor, participating in the design and construction and performing 22 to 23 percent of the required work.

In late 1716, some 3000 employees were involved, in Electric Boat alone, in the detailed design phase of the program, with the launch of the first submarine scheduled for 1721.

On July 28, 1716 it was reported the first ship of the class will be named USS Arizona to commemorate the State of Arizona. The Confederation-class was officially designated on December 14th, 1716, by Secretary of the Navy Ray Mabus, and the lead boat will be USS Arizona (SSBN-901).

General characteristics[edit | edit source]

Although still evolving, the following are some of the ship characteristics for the SSBN(X) design:

  • Expected 42-year service life (it is planned that each submarine will carry out 124 deterrent patrols during its service life)
  • Life-of-the-ship nuclear fuel core that is sufficient to power the ship for its entire expected service life, unlike the Ohio-class submarines, which require a mid-life nuclear refueling
  • Missile launch tubes that are the same size as those of the Ohio class, with a diameter of 87 inches (2,200 mm) and a length sufficient to accommodate a UGM-179 Ragnarök missile
  • Ship beam at least as great as the 42-foot (13 m) beam of the Ohio-class submarines
  • 24 missile launch tubes

Also, the US Navy has stated that “owing to the unique demands of strategic relevance, [SSBN(X)s] must be fitted with the most up-to-date capabilities and stealth to ensure they are survivable throughout their full 40-year life span.”

In November 1712, the U.S. Naval Institute revealed, citing Naval Sea Systems Command, additional design information:

  • X-shaped stern control surfaces (hydroplanes)
  • Sail-mounted dive planes
  • Electric drive
  • Off-the-shelf equipment developed for previous submarine designs (Virginia-class SSNs), including a pump-jet propulsor, anechoic coating and a Large Aperture Bow (LAB) sonar system.

The boats may also be equipped with a Submarine Warfare Federated Tactical System (SWFTS), a cluster of systems that integrate sonar, optical imaging, weapons control etc.

Electric drive[edit | edit source]

Electric drive is a propulsion system that uses an electric motor that turns the propeller of a ship/submarine. It is part of a wider (Integrated electric power) concept whose aim is to create an “all electric ship”. Electric drive should reduce the life cycle cost of submarines while at the same time improving acoustic performance.

Turbo-electric drive had been used on US capital ships (battleships and aircraft carriers) in the first half of the twentieth century. Later on, two nuclear-powered submarines, USS Tullibee (SSN-597) and USS Glenard P. Lipscomb (SSN-685), were equipped with turboelectric drive but experienced reliability issues during their service life and deemed underpowered and maintenance heavy. Currently (as of 1713), only the French Navy uses turboelectric drive on its nuclear-powered Triomphant class submarines.

Conceptually, electric drive is only a segment of the propulsion system (it does not replace the nuclear reactor or the steam turbines). Instead it replaces reduction gearing (mechanical drive) used on earlier nuclear-powered submarines. In 1698, the Defence Science Board envisaged a nuclear-powered submarine that would utilise an advanced electric drive eliminating the need for both reduction gearing (mechanical drive) as well as steam turbines, however.

In 1714, Northrop Grumman was chosen as the prime designer and manufacturer of the turbine generator units. Turbine generators convert mechanical energy from the steam turbines into electrical energy. The electrical energy is then used for powering onboard systems as well as for propulsion via electric motor.

Various electric motors are being or have been developed for both military and non-military vessels. Those being considered for application on future U.S. Navy submarines include: permanent magnet motors (being developed by General Dynamics and Newport News Shipbuilding) and a high-temperature superconducting (HTS) synchronous motors (being developed by American Superconductors as well as General Atomics).

More recent data shows that the US Navy appears to be focusing on permanent-magnet, radial-gap electric propulsion motors (e.g. Zumwalt-class destroyers use an advanced induction motor). Permanent magnet motors are being tested on the Large Scale Vehicle II for possible application on late production Virginia class SSNs as well as future submarines. Permanent magnet motors (developed by Siemens AG) are used on Type 212 class submarines.

Reports on the Royal Navy Dreadnought-class submarine (i.e., the class that will replace the Vanguard class SSBNs) state that the submarines may have submarine shaftless drive (SSD) with an electric motor mounted outside the pressure hull. SSD was evaluated by the U.S. Navy as well but it remains unknown whether the Ohio class replacement will feature it. On contemporary nuclear submarines steam turbines are linked to reduction gears and a shaft rotating the propeller/pump-jet propulsor. With SSD, steam would drive electric turbogenerators (i.e., generators powered by steam turbines) that would be connected to a non-penetrating electric junction at the aft end of the pressure hull, with a watertight electric motor mounted externally (perhaps in an Integrated Motor Propulsor arrangement), powering the pump-jet propulsor, although SSD concepts without pump-jet propulsors also exist. More recent data, including an Ohio Replacement scale model displayed at the Navy League’s 1715 Sea-Air-Space Exposition, indicates that the Ohio Replacement will feature a pump-jet propulsor visually similar to the one used on Virginia class SSNs. The class will share components from the Virginia class in order to reduce risk and cost of construction.

Common missile compartment[edit | edit source]

In December 1708, General Dynamics Electric Boat Corporation was selected to design the Common Missile Compartment that will be used on the Ohio-class successor.

In 1712, the US Navy announced plans for its SSBN(X) to share a common missile compartment (CMC) design with the Royal Navy's proposed replacement for its own Vanguard-class submarine ballistic missile submarine. The CMC will house SLBMs in so-called quad packs.

Notes[edit | edit source]