he Nimitz-class supercarriers are a class of ten nuclear-powered aircraft carriers in service with the United States Navy. The lead ship of the class is named for World War II Pacific fleet commander Chester W. Nimitz, who was the Navy's last fleet admiral. With an overall length of 1,092 ft (333 m) and full-load displacements of over 100,000 long tons,[1] they are the largest capital ships in the world. Instead of the gas turbines or diesel-electric systems used for propulsion on many modern warships, the carriers use two A4W pressurized water reactors which drive four propeller shafts and can produce a maximum speed of over 30 knots (56 km/h) and maximum power of around 260,000 shp (190 MW). As a result of the use of nuclear power, the ships are capable of operating for over 20 years without refueling and are predicted to have a service life of over 50 years. They are categorized as nuclear-powered aircraft carriers and are numbered with consecutive hull numbers between CVN-68 and CVN-77.
All ten carriers were constructed by Newport News Shipbuilding Company in Virginia. USS Nimitz, the lead ship of the class, was commissioned on 3 May 1975, and USS George H. W. Bush, the tenth and last of the class, was commissioned on 10 January 2009. Since the 1970s, Nimitz-class carriers have participated in many conflicts and operations across the world, including Operation Eagle Claw in Iran, the Gulf War, and more recently in Iraq and Afghanistan.
The angled flight decks of the carriers use a CATOBAR arrangement to operate aircraft, with steam catapults and arrestor wires for launch and recovery. As well as speeding up flight deck operations, this allows for a much wider variety of aircraft than with the STOVL arrangement used on smaller carriers. An embarked carrier air wing consisting of up to around 90 aircraft is normally deployed on board. The air wings' strike fighters are primarily F/A-18E/F Super Hornets and F/A-18C Hornets, after the retirement of the F-14 Tomcat. In addition to their aircraft, the vessels carry short-range defensive weaponry for anti-aircraft warfare and missile defense.
The U.S. Navy has stated that the carriers could withstand three times the damage sustained by the Essex class inflicted by Japanese air attacks during World War II. The hangars on the ships are divided into three fire bays by thick steel doors that are designed to restrict the spread of fire. This addition has been present on U.S. aircraft carriers since World War II, after the fires caused by Kamikaze attacks.
The first ships were designed around the time of the Vietnam War, and certain aspects of the design were influenced by operations there. To a certain extent, the carrier operations in Vietnam demonstrated the need for increased capabilities of aircraft carriers over their survivability, as they were used to send sorties into the war and were therefore less subject to attack. As a result of this experience, Nimitz carriers were designed with larger stores of aviation fuel and larger magazines in relation to previous carriers, although this was partly as a result of increased space available by the new design of the ships' propulsion systems.
A major purpose of the ships was initially to support the U.S. military during the Cold War, and they were designed with capabilities for that role, including using nuclear power instead of oil for greater endurance when deployed in blue water, and the ability to make adjustments to the carriers' weapons systems on the basis of new intelligence and technological developments. They were initially categorized only as attack carriers, but ships have been constructed with anti-submarine capabilities since USS Carl Vinson. As a result, the ships and their aircraft are now able to participate in a wide range of operations, which can include sea and air blockades, mine laying, and missile strikes on land, air and sea.
Because of a design flaw, ships of this class have inherent lists to starboard when under combat loads that exceed the capability of their list control systems. The problem appears to be especially prevalent on some of the more modern vessels. This problem has been previously rectified by using damage control voids for ballast, but a solution using solid ballast which does not affect the ship's survivability has been proposed.
The other countermeasures the ships use are four Sippican SRBOC (super rapid bloom off-board chaff) six-barrel MK36 decoy launchers, which deploy infrared flares and chaff to disrupt the sensors of incoming missiles; an SSTDS torpedo defense system; and an AN/SLQ-25 Nixie torpedo countermeasures system. The carriers also use Raytheon AN/SLQ-32(V) electronic warfare systems to detect and disrupt hostile radar signals in addition to the electronic warfare capabilities of some of the aircraft on board.
The presence of nuclear weapons on board U.S. aircraft carriers since the end of the Cold War has neither been confirmed nor denied by the U.S. government. As a result of this, as well as concerns over the safety of nuclear power, the presence of a U.S. aircraft carrier in a foreign port has occasionally provoked protest from local people, for example when USS Nimitz docked in Chennai, India, in 2007. At that time, the Strike Group commander Rear Admiral John Terence Blake stated that: "The U.S. policy is that we do not routinely deploy nuclear weapons on board Nimitz."
A typical carrier air wing can include 12–14 F/A-18F Super Hornets as strike fighters; two squadrons of 10–12 F/A-18C Hornets , with one of these often provided by the U.S. Marine Corps (VMFA), also as strike fighters; 4–6 EA-6B Prowlers for electronic warfare; 4–6 E-2C Hawkeyes used for airborne early warning; C-2 Greyhounds used for logistics; and a Helicopter Antisubmarine Squadron of 6–8 SH-60F & HH-60H Seahawks. Aircraft that have previously operated from Nimitz-class carriers include F-14 Tomcats, S-3 Vikings, A-7 Corsair II and A-6E Intruder aircraft.
When an aircraft carrier deploys, it takes a Strike Group, made up of several other warships and supply vessels which allow the operation to be carried out. The armament of the Nimitz class is made up only of short range defensive weapons, used as a last line of defense against enemy missiles and aircraft. The other vessels in the Strike Group provide additional capabilities, such as long range Tomahawk missiles or the Aegis Combat System, and also protect the carrier from attack. A typical Strike Group may include, in addition to an aircraft carrier: up to six surface combatants, including frigates, guided missile cruisers and guided missile destroyers (used primarily for anti-aircraft warfare and anti-submarine warfare); one or two attack submarines (for seeking out and destroying hostile surface ships and submarines); and an ammunition, oiler, and supply ship of Military Sealift Command to provide logistical support. The precise structure and numbers of each type of ship can vary between groups depending on the objectives of the deployment.
USS Theodore Roosevelt and those completed after her have slight structural differences from the earlier carriers such as improved protection for ordnance storage in their magazines. Other improvements include upgraded flight deck ballistic protection, first implemented on USS George Washington, and the high-strength low-alloy steel (HSLA-100) used for constructing ships since USS John C. Stennis. More recently, older ships have had their flight decks refitted with a non-slip material fitted on new-build ships, to improve safety for both crew and aircraft.
The final ship USS George H.W. Bush was designed as a "transition ship" to the Nimitz class replacement, the Gerald R. Ford class. Bush incorporates new technologies including improved propeller and bulbous bow designs, a reduced radar signature and electronic and environmental upgrades. As a result, the ship's cost was US$6.2 billion, higher than that of the earlier Nimitz-class ships which each cost around US$4.5 billion. To lower costs, some new technologies and design features were also incorporated into the USS Ronald Reagan, the previous carrier, including a redesigned island.
All ten carriers were constructed by Newport News Shipbuilding Company in Virginia. USS Nimitz, the lead ship of the class, was commissioned on 3 May 1975, and USS George H. W. Bush, the tenth and last of the class, was commissioned on 10 January 2009. Since the 1970s, Nimitz-class carriers have participated in many conflicts and operations across the world, including Operation Eagle Claw in Iran, the Gulf War, and more recently in Iraq and Afghanistan.
The angled flight decks of the carriers use a CATOBAR arrangement to operate aircraft, with steam catapults and arrestor wires for launch and recovery. As well as speeding up flight deck operations, this allows for a much wider variety of aircraft than with the STOVL arrangement used on smaller carriers. An embarked carrier air wing consisting of up to around 90 aircraft is normally deployed on board. The air wings' strike fighters are primarily F/A-18E/F Super Hornets and F/A-18C Hornets, after the retirement of the F-14 Tomcat. In addition to their aircraft, the vessels carry short-range defensive weaponry for anti-aircraft warfare and missile defense.
Description
The Nimitz class carriers have an overall length of 1,092 ft (333 m) and a full-load displacement of about 100,000–104,000 long tons (102,000–106,000 metric tons). They have a beam at the waterline of 135 ft (41 m), and the maximum width of their flight decks is 251 ft 10 in to 257 ft 3 in (77.76 m to 78.41 m) (depending on the variant). The ships' companies can number up to 3,200, not including an air wing of 2,480.Design
The Nimitz-class aircraft carriers were ordered to supplement the aircraft carriers of the Kitty Hawk class and Enterprise class, maintaining the strength and capability of the U.S. Navy after the older carriers were decommissioned. The ships were designed to be improvements on previous U.S. aircraft carriers , in particular the Enterprise and Forrestal-class supercarriers, although the arrangement of the ships is relatively similar to that of the Kitty Hawk class. Among other design improvements, the two reactors on Nimitz class carriers take up less space than the eight reactors used on Enterprise. Along with a more generally improved design, this means that Nimitz-class carriers can carry 90% more aviation fuel and 50% more ordnance when compared to the Forrestal class.The U.S. Navy has stated that the carriers could withstand three times the damage sustained by the Essex class inflicted by Japanese air attacks during World War II. The hangars on the ships are divided into three fire bays by thick steel doors that are designed to restrict the spread of fire. This addition has been present on U.S. aircraft carriers since World War II, after the fires caused by Kamikaze attacks.
The first ships were designed around the time of the Vietnam War, and certain aspects of the design were influenced by operations there. To a certain extent, the carrier operations in Vietnam demonstrated the need for increased capabilities of aircraft carriers over their survivability, as they were used to send sorties into the war and were therefore less subject to attack. As a result of this experience, Nimitz carriers were designed with larger stores of aviation fuel and larger magazines in relation to previous carriers, although this was partly as a result of increased space available by the new design of the ships' propulsion systems.
A major purpose of the ships was initially to support the U.S. military during the Cold War, and they were designed with capabilities for that role, including using nuclear power instead of oil for greater endurance when deployed in blue water, and the ability to make adjustments to the carriers' weapons systems on the basis of new intelligence and technological developments. They were initially categorized only as attack carriers, but ships have been constructed with anti-submarine capabilities since USS Carl Vinson. As a result, the ships and their aircraft are now able to participate in a wide range of operations, which can include sea and air blockades, mine laying, and missile strikes on land, air and sea.
Because of a design flaw, ships of this class have inherent lists to starboard when under combat loads that exceed the capability of their list control systems. The problem appears to be especially prevalent on some of the more modern vessels. This problem has been previously rectified by using damage control voids for ballast, but a solution using solid ballast which does not affect the ship's survivability has been proposed.
Propulsion
All ships of the class are powered by two A4W nuclear reactors, kept in separate compartments. They power four propeller shafts and can produce a maximum speed of over 30 knots (56 km/h) and maximum power of 260,000 bhp (190 MW). The reactors produce heat through nuclear fission which heats water. This is then passed through four turbines (manufactured by General Electric) which are shared by the two reactors. The turbines power the four bronze propellers, each with a diameter of 25 feet (7.6 m) and a weight of 66,000 pounds (30 t). Behind these are the two rudders which are 29 feet (8.8 m) high and 22 feet (6.7 m) long, and each weigh 110,000 pounds (50 t). The Nimitz-class ships constructed since USS Ronald Reagan also have bulbous bows in order to improve speed and fuel efficiency by reducing hydrodynamic drag. As a result of the use of nuclear power, the ships are capable of operating continuously for over 20 years without refueling and are predicted to have a service life of over 50 years.Armament and protection
In addition to the aircraft carried onboard, the ships carry defensive equipment for direct use against missiles and hostile aircraft. These consist of either three or four NATO RIM-7 Sea Sparrow missile launchers designed for defense against aircraft and anti-ship missiles as well as either three or four 20 mm Phalanx CIWS missile defense cannon. USS Ronald Reagan has none of these, having been built with the RIM-116 Rolling Airframe Missile system, two of which have also been installed on USS Nimitz and USS George Washington. These will be installed on the other ships as they return for Refueling Complex Overhaul (RCOH). Since USS Theodore Roosevelt, the carriers have been constructed with 2.5 in (64 mm) Kevlar armor over vital spaces, and earlier ships have been retrofitted with it: Nimitz in 1983–1984, Eisenhower from 1985–1987 and Vinson in 1989.The other countermeasures the ships use are four Sippican SRBOC (super rapid bloom off-board chaff) six-barrel MK36 decoy launchers, which deploy infrared flares and chaff to disrupt the sensors of incoming missiles; an SSTDS torpedo defense system; and an AN/SLQ-25 Nixie torpedo countermeasures system. The carriers also use Raytheon AN/SLQ-32(V) electronic warfare systems to detect and disrupt hostile radar signals in addition to the electronic warfare capabilities of some of the aircraft on board.
The presence of nuclear weapons on board U.S. aircraft carriers since the end of the Cold War has neither been confirmed nor denied by the U.S. government. As a result of this, as well as concerns over the safety of nuclear power, the presence of a U.S. aircraft carrier in a foreign port has occasionally provoked protest from local people, for example when USS Nimitz docked in Chennai, India, in 2007. At that time, the Strike Group commander Rear Admiral John Terence Blake stated that: "The U.S. policy is that we do not routinely deploy nuclear weapons on board Nimitz."
Carrier air wing
In order for a carrier to deploy, it must embark one of ten Carrier Air Wings (CVW). The carriers can accommodate a maximum of 130 F/A-18 Hornets[26] or 85–90 aircraft of different types, but current numbers are typically 64 aircraft. Although the air wings are integrated with the operation of the carriers they are deployed to, they are nevertheless regarded as a separate entity. As well as the aircrew, the air wings are also made up of support personnel involved in roles including maintenance, aircraft and ordnance handling and emergency procedures. Each person on the flight deck wears color-coded clothing to make their role easily identifiable.A typical carrier air wing can include 12–14 F/A-18F Super Hornets as strike fighters; two squadrons of 10–12 F/A-18C Hornets , with one of these often provided by the U.S. Marine Corps (VMFA), also as strike fighters; 4–6 EA-6B Prowlers for electronic warfare; 4–6 E-2C Hawkeyes used for airborne early warning; C-2 Greyhounds used for logistics; and a Helicopter Antisubmarine Squadron of 6–8 SH-60F & HH-60H Seahawks. Aircraft that have previously operated from Nimitz-class carriers include F-14 Tomcats, S-3 Vikings, A-7 Corsair II and A-6E Intruder aircraft.
Flight deck and aircraft facilities
The flight deck is angled at nine degrees, which allows for aircraft to be launched and recovered simultaneously. This angle of the flight deck was reduced slightly in relation to previous carriers, as the current design improves the air flow around the carrier.[9] Four steam catapults are used to launch fixed-wing aircraft, and four arrestor wires are used for recovery. The two newest carriers, Reagan and Bush, only have three arrestor wires each, as the fourth was used infrequently on earlier ships and was therefore deemed unnecessary. This CATOBAR arrangement allows for faster launching and recovery as well as a much wider range of aircraft that can be used on board compared with smaller aircraft carriers, most of which use a simpler STOVL arrangement without catapults or arrestor wires. The ship's aircraft operations are controlled by the air boss on the bridge. Four large elevators transport aircraft between the flight deck and the hangars below. These hangars are divided into three bays by thick steel doors that are designed to restrict the spread of fire.Strike groups
When an aircraft carrier deploys, it takes a Strike Group, made up of several other warships and supply vessels which allow the operation to be carried out. The armament of the Nimitz class is made up only of short range defensive weapons, used as a last line of defense against enemy missiles and aircraft. The other vessels in the Strike Group provide additional capabilities, such as long range Tomahawk missiles or the Aegis Combat System, and also protect the carrier from attack. A typical Strike Group may include, in addition to an aircraft carrier: up to six surface combatants, including frigates, guided missile cruisers and guided missile destroyers (used primarily for anti-aircraft warfare and anti-submarine warfare); one or two attack submarines (for seeking out and destroying hostile surface ships and submarines); and an ammunition, oiler, and supply ship of Military Sealift Command to provide logistical support. The precise structure and numbers of each type of ship can vary between groups depending on the objectives of the deployment.
Design differences within the class
While the designs of the final seven ships (from USS Theodore Roosevelt) are slightly different from those of the earlier ships, the U.S. Navy nevertheless regards all vessels as a single class. As the older carriers come in for Refueling and Complex Overhaul (RCOH), their nuclear power plants are refueled and they are upgraded to the standards of the latest ships. This is the most substantial overhaul the ships receive, although other refits may be performed to update the ships' equipment. The ships were initially categorized only as attack carriers but have been constructed with anti-submarine capabilities since USS Carl Vinson. These improvements include better radar systems and facilities which enable the ships to operate aircraft in a more effective anti-submarine role, including the fitting of common undersea picture (CUP) technology which uses sonar to allow for better assessment of the threat from submarines.USS Theodore Roosevelt and those completed after her have slight structural differences from the earlier carriers such as improved protection for ordnance storage in their magazines. Other improvements include upgraded flight deck ballistic protection, first implemented on USS George Washington, and the high-strength low-alloy steel (HSLA-100) used for constructing ships since USS John C. Stennis. More recently, older ships have had their flight decks refitted with a non-slip material fitted on new-build ships, to improve safety for both crew and aircraft.
The final ship USS George H.W. Bush was designed as a "transition ship" to the Nimitz class replacement, the Gerald R. Ford class. Bush incorporates new technologies including improved propeller and bulbous bow designs, a reduced radar signature and electronic and environmental upgrades. As a result, the ship's cost was US$6.2 billion, higher than that of the earlier Nimitz-class ships which each cost around US$4.5 billion. To lower costs, some new technologies and design features were also incorporated into the USS Ronald Reagan, the previous carrier, including a redesigned island.
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