Aircraft carrier

Four modern aircraft carriers of various types—USS John C. Stennis, Charles de Gaulle, USS John F. Kennedy, helicopter carrier HMS Ocean—and escort vessels.
From bottom to top: Spanish light V/STOL carrier Príncipe de Asturias, amphibious assault ship USS Wasp, fleet carrier USS Forrestal, and light V/STOL carrier HMS Invincible, showing size differences of late 20th century carriers

An aircraft carrier is a warship with a full-length flight deck and facilities for carrying, arming, deploying, and recovering aircraft that serves as a seagoing airbase.[1] Typically, it is the capital ship of a fleet, as it allows a naval force to project air power worldwide without depending on local bases for staging aircraft operations. It is extremely expensive to build and important to protect. Aircraft carriers have evolved from converted cruisers to nuclear-powered warships that carry numerous fighter planes, strike aircraft, helicopters, and other types of aircraft.

There is no single definition of an "aircraft carrier",[2] and modern navies use several variants of the type. These variants are sometimes categorized as sub-types of aircraft carriers,[3] and sometimes as distinct types of naval aviation-capable ships.[2][4] Aircraft carriers may be classified according to the type of aircraft they carry and their operational assignments. Admiral Sir Mark Stanhope, former head of the Royal Navy, has said that "To put it simply, countries that aspire to strategic international influence have aircraft carriers".[5]

Carriers have evolved since their inception in the early twentieth century from wooden vessels used to deploy balloons to nuclear-powered warships that carry dozens of aircraft, including fighter jets and helicopters. As of 29 April 2015, there are thirty-seven active aircraft carriers in the world within twelve navies. The United States Navy has ten large nuclear-powered carriers, known as supercarriers, carrying up to ninety aircraft, the largest carriers in the world. As well as the supercarrier fleet, the US Navy has nine amphibious assault ships used primarily for helicopters (sometimes called helicopter carriers); these can also carry up to twenty-five fighter jets, and in some cases are as large as some other nations' fixed-wing carriers.

Types of carrier

Brazilian aircraft carrier NAe São Paulo, foreground, and U.S. Navy carrier USS Ronald Reagan during a combined training exercise.
USS Enterprise a supercarrier of the US Navy (left), sails alongside Charles de Gaulle, a fleet carrier of the French Navy (right) both of which have the CATOBAR configuration.
Cavour, a light aircraft carrier of the Italian Navy.
HMS Ocean of the Royal Navy, an amphibious assault ship/helicopter carrier.

Basic types

(note: some of the types listed here are not strictly defined as aircraft carriers by some sources)

By role

A fleet carrier is intended to operate with the main fleet and usually provides an offensive capability. These are the largest carriers capable of fast speeds. By comparison, escort carriers were developed to provide defense for convoys of ships. They were smaller and slower with lower numbers of aircraft carried. Most were built from mercantile hulls or, in the case of merchant aircraft carriers, were bulk cargo ships with a flight deck added on top. Light aircraft carriers were carriers that were fast enough to operate with the fleet but of smaller size with reduced aircraft capacity. Soviet aircraft carriers now in use by Russia are actually called heavy aviation cruisers, these ships while sized in the range of large fleet carriers were designed to deploy alone or with escorts and provide both strong defensive weaponry and heavy offensive missiles equivalent to a guided missile cruiser in addition to supporting fighters and helicopters.

By configuration

INS Vikramaditya of the Indian Navy has the STOBAR configuration.

There are four main configurations of aircraft carrier in service in the world's navies, divided by the way that aircraft take off and land:

By size

Hull type identification symbols

Several systems of identification symbol for aircraft carriers and related types of ship have been used. These include the Pennant numbers used by the British Royal Navy and some Commonwealth countries, the US Hull classification symbols also used by NATO and some other countries,[6] and the Canadian Hull classification symbols.

US hull classification symbols for aircraft carriers and related types
Symbol Designation
CV Generic aircraft carrier
CVA Attack carrier
CVAN Nuclear-powered attack carrier
CVE Escort carrier
CVG Flight deck cruiser (proposed)
CVHA Aircraft carrier, Helicopter Assault (retired)
CVHE Aircraft carrier, Helicopter, Escort (retired)
CVL Light aircraft carrier
CVN Nuclear-powered aircraft carrier
CVS Anti-submarine warfare carrier
CVV Aircraft Carrier, Medium (proposed)
LHA Landing Helicopter Assault, a type of Amphibious assault ship
LHD Landing Helicopter Dock, a type of Amphibious assault ship
LPH Landing Platform Helicopter, a type of Amphibious assault ship

History

Origins

The Japanese seaplane carrier Wakamiya conducted the world's first naval-launched air raids in 1914.

The 1903 advent of heavier-than-air fixed-wing aircraft was closely followed in 1910 by the first experimental take-off of an airplane, made from the deck of a United States Navy vessel (cruiser USS Birmingham), and the first experimental landings were conducted in 1911. On 9 May 1912 the first airplane take-off from a ship underway was made from the deck of the British Royal Navy's HMS Hibernia.[7][8] Seaplane tender support ships came next, with the French Foudre of 1911. In September 1914 the Imperial Japanese Navy Wakamiya conducted the world's first successful ship-launched air raid:[9][10] on 6 September 1914 a Farman aircraft launched by Wakamiya attacked the Austro-Hungarian cruiser Kaiserin Elisabeth and the German gunboat Jaguar in Kiaochow Bay off Tsingtao; neither was hit.[11][12]

Aerial view of Hōshō of the Imperial Japanese Navy as completed in December 1922.

The development of flattop vessels produced the first large fleet ships. In 1918, HMS Argus became the world's first carrier capable of launching and recovering naval aircraft.[13] As a result of the Washington Naval Treaty of 1922, which limited the construction of new heavy surface combat ships, most early aircraft carriers were conversions of ships that were laid down (or had served) as different ship types: cargo ships, cruisers, battle cruisers, or battleships. These conversions gave rise to Lexington-class aircraft carriers (1927), Akagi and Courageous-class. Specialist carrier evolution was well underway, with several navies ordering and building warships that were purposefully designed to function as aircraft carriers by the mid-1920s, resulting in the commissioning of ships such as Hōshō (1922), HMS Hermes (1924), and Béarn (1927). During World War II, these ships would become the backbone of the carrier forces of the United States, British, and Japanese navies, known as fleet carriers.

World War II

Attack on carrier USS Franklin, 19 March 1945. The casualties included 724 killed.
USS Enterprise (CV-6), the most decorated US ship of World War II.

The aircraft carrier dramatically changed naval combat in World War II, because air power was becoming a significant factor in warfare. The advent of aircraft as focal weapons was driven by the superior range, flexibility and effectiveness of carrier-launched aircraft. They had higher range and precision than naval guns, making them highly effective. The versatility of the carrier was demonstrated in November 1940 when HMS Illustrious launched a long-range strike on the Italian fleet at their base in Taranto, signalling the beginning of the effective and highly mobile aircraft strikes. This operation incapacitated three of the six battleships at a cost of two torpedo bombers. World War II in the Pacific Ocean involved clashes between aircraft carrier fleets. The 1941 Japanese surprise attack on Pearl Harbor was a clear illustration of the power projection capability afforded by a large force of modern carriers. Concentrating six carriers in a single unit turned naval history about, as no other nation had fielded anything comparable. However, the vulnerability of carriers compared to traditional battleships when forced into a gun-range encounter was quickly illustrated by the sinking of HMS Glorious by German battle cruisers during the Norwegian campaign in 1940.

This new-found importance of naval aviation forced nations to create a number of carriers, in efforts to provide air superiority cover for every major fleet in order to ward off enemy aircraft. This extensive usage required the construction of several new 'light' carriers. Escort aircraft carriers, such as USS Bogue, were sometimes purpose-built, but most were converted from merchant ships as a stop-gap measure to provide anti-submarine air support for convoys and amphibious invasions. Following this concept, Light aircraft carriers built by the US, such as USS Independence, represented a larger, more "militarized" version of the escort carrier. Although with similar complement to Escort carriers, they had the advantage of speed from their converted cruiser hulls. The UK 1942 Design Light Fleet Carrier was designed for building quickly by civilian shipyards and with an expected service life of about 3 years.[14] They served the Royal Navy during the war and was the hull design chosen for nearly all aircraft carrier equipped navies after the war until the 1980s. Emergencies also spurred the creation or conversion of highly unconventional aircraft carriers. CAM ships, were cargo-carrying merchant ships that could launch (but not retrieve) a single fighter aircraft from a catapult to defend the convoy from long range German aircraft.

Postwar era

USS Tripoli, a US Navy Iwo Jima-class helicopter carrier
USS Enterprise (CVN-65), the world's first nuclear-powered carrier commissioned in 1961.

Before World War II, international naval treaties of 1922, 1930 and 1936 limited the size of capital ships including carriers.

Since World War II, aircraft carrier designs have increased in size to accommodate a steady increase in aircraft size. The large, modern Nimitz class of US carriers has a displacement nearly four times that of the World War II–era USS Enterprise, yet its complement of aircraft is roughly the same—a consequence of the steadily increasing size and weight of military aircraft over the years. Today's aircraft carriers are so expensive that nations which operate them risk significant political, economic, and military impact if a carrier is lost, or even used in conflict.

Modern navies that operate such aircraft carriers treat them as the capital ship of the fleet, a role previously held by the battleship. This change took place during World War II in response to air power becoming a significant factor in warfare, driven by the superior range, flexibility and effectiveness of carrier-launched aircraft. Following the war, carrier operations continued to increase in size and importance. Supercarriers, displacing 75,000 tonnes or greater, have become the pinnacle of carrier development. Some are powered by nuclear reactors and form the core of a fleet designed to operate far from home. Amphibious assault ships, such as USS Tarawa and HMS Ocean, serve the purpose of carrying and landing Marines, and operate a large contingent of helicopters for that purpose. Also known as "commando carriers"[15] or "helicopter carriers", many have the capability to operate VSTOL aircraft.

Lacking the firepower of other warships, carriers by themselves are considered vulnerable to attack by other ships, aircraft, submarines, or missiles. Therefore, an aircraft carrier is generally accompanied by a number of other ships to provide protection for the relatively unwieldy carrier, to carry supplies and perform other support services, and to provide additional offensive capabilities. The resulting group of ships is often termed a battle group, carrier group, or carrier battle group.

There is a view that modern anti-ship weapons systems, such as torpedoes and missiles, have made aircraft carriers obsolete as too vulnerable for modern combat.[16] On the other hand, the threatening role of aircraft carriers has a place in modern asymmetric warfare, like the gunboat diplomacy of the past. Furthermore, aircraft carriers facilitate quick and precise projections of overwhelming military power into such local and regional conflicts.[17]

Aircraft carriers in service

US Navy personnel direct an aircraft onto a catapult aboard the Nimitz-class aircraft carrier USS John C. Stennis

Most navies operate only one or two aircraft carriers, if any. The USA is a notable exception, with 10 super carriers and 9 amphibious assault ships in service.

A total of 20 fleet carriers are in active service with ten navies. Additionally, the navies of Australia, Brazil, China, France, India, Italy, Japan, Russia, South Korea, Spain, Thailand and the United States also operate ships capable of carrying and operating multiple helicopters and STOVL aircraft.

Among helicopter-only types:

The future of aircraft carriers

A good many aircraft carriers and related types are planned, under construction or undergoing commissioning activity.

The Royal Australian Navy is in the process of procuring two Canberra-class LHD's expected to enter service in 2014 and 2016 respectively.[18] The ships will be the largest in Australian naval history. Their primary roles are to embark, transport and deploy an embarked force and to carry out or support humanitarian assistance missions. The LHD is capable of launching multiple helicopters at one time while maintaining an amphibious capability of 1,000 troops and their supporting vehicles (tanks, armoured personnel carriers etc.).[19] The Australian Defence Minister has publically raised the possibility of procuring F-35B STOVL aircraft for the carrier, stating that it "has been on the table since day one. Stating the LHD's are "STOVL capable".[20]

INS Vikrant (2013) the first aircraft carrier to be built in India under construction.
JS Izumo (DDH-183) just after her launch.

In December 2009, then Indian Navy chief Admiral Nirmal Kumar Verma said at his maiden navy week press conference that concepts currently being examined by the Directorate of Naval Design for the second indigenous aircraft carrier (IAC-2), are for a conventionally powered carrier displacing over 50,000 tons and equipped with steam catapults (rather than the ski-jump on the Gorshkov/Vikramaditya and the IAC) to launch fourth-generation aircraft.[21] Later on in August 2013 Vice Admiral RK Dhowan, while talking about the detailed study underway on the IAC-II project, said that nuclear propulsion was also being considered.[22] The navy also evaluated the Electromagnetic Aircraft Launch System (EMALS), which is being used by the US Navy in their latest Gerald R. Ford-class aircraft carriers. General Atomics, the developer of the EMALS, was cleared by the US government to give a technical demonstration to Indian Navy officers, who were impressed by the new capabilities of the system. The EMALS enables launching varied aircraft including unmanned combat air vehicles (UCAV).[23][24] The aim is to have a total of three aircraft carriers in service, with two fully operational carriers and the third in refit.[25]

In August 2013, a launching ceremony for Japan's largest military ship since World War II was held in Yokohama. The 820-foot-long, 19,500-ton flattop destroyer Izumo will be deployed in March 2015.[26] The ship will be able to carry up to 14 helicopters; however, only 7 ASW helicopters and 2 SAR helicopters are planned for the initial aircraft complement. For other operations, 400 troops and 50 3.5t trucks (or equivalent equipment) can also be carried. The flight deck has 5 helicopter landing spots that allow simultaneous landings or take-offs. The ship is equipped with 2 Phalanx CIWS and 2 SeaRAM for its defense. The destroyers of this class were initially intended to replace the two ships of the Shirane class, which were originally scheduled to begin decommissioning in FY2014.

Speaking in St. Petersburg, Russia on 30 June 2011, the head of Russia's United Shipbuilding Corporation said his company expected to begin design work for a new carrier in 2016, with a goal of beginning construction in 2018 and having the carrier achieve initial operational capability by 2023.[27] Several months later, on 3 November 2011 the Russian newspaper Izvestiya reported that the naval building plan now included (first) the construction of a new shipyard capable of building large hull ships, after which Moscow will build two(80 000 tons full load each) nuclear-powered aircraft carriers by 2027. The spokesperson said one carrier would be assigned to the Russian Navy's Northern Fleet at Murmansk, and the second would be stationed with the Pacific Fleet at Vladivostok.[28]

The Republic of Korea Navy believes it can deploy two light aircraft carriers by 2036 and expand its blue-water force to cope with the rapid naval buildups of China and Japan, according to a Navy source.[29]

HMS Queen Elizabeth, the lead Queen Elizabeth-class supercarrier.

The British Royal Navy is constructing two new larger STOVL aircraft carriers, the Queen Elizabeth class, to replace the three Invincible-class carriers. The ships will be named HMS Queen Elizabeth and HMS Prince of Wales.[30][31] They will be able to operate up to 40 aircraft in peace time with a tailored group of up to 50, and will have a displacement of 70,600 tonnes. The ships are due to become operational from 2020.[32] Their primary aircraft complement will be made up of F-35B Lightning IIs, and their ship's company will number around 680 with the total complement rising to about 1600 when the air group is embarked. Defensive weapons will include the Phalanx Close-In Weapons System for anti-aircraft and anti-missile defence; also 30mm Automated Small Calibre Guns and Miniguns for use against fast attack craft.[33] The two ships will be the largest warships ever built for the Royal Navy.

The current US fleet of Nimitz-class carriers will be followed into service (and in some cases replaced) by the Gerald R. Ford class. It is expected that the ships will be more automated in an effort to reduce the amount of funding required to maintain and operate its supercarriers. The main new features are implementation of Electromagnetic Aircraft Launch System (EMALS) (which replace the old steam catapults) and unmanned aerial vehicles.[34] With the deactivation of the USS Enterprise in December 2012 (decommissioning scheduled for 2013), the U.S. fleet comprises 10 supercarriers. On 24 July 2007, the House Armed Services Seapower subcommittee recommended seven or eight new carriers (one every four years). However, the debate has deepened over budgeting for the $12–14.5 billion (plus $12 billion for development and research) for the 100,000 ton Gerald R. Ford-class carrier (estimated service 2015) compared to the smaller $2 billion 45,000 ton America-class amphibious assault ships able to deploy squadrons of F-35B of which two are already under construction and twelve are planned.[35]

Description

Structure

STOVL Harriers preparing to takeoff from CATOBAR carrier, USS Franklin D. Roosevelt (CV-42)

Carriers are large and long ships, although there is a high degree of variation depending on their intended role and aircraft complement. The size of the carrier has varied over history and among navies, to cater to the various roles that global climates have demanded from naval aviation.

Regardless of size, the ship itself must house their complement of aircraft, with space for launching, storing, and maintaining them. Space is also required for the large crew, supplies (food, munitions, fuel, engineering parts), and propulsion. US supercarriers are notable for having nuclear reactors powering their systems and propulsion. This makes the carrier reasonably tall.

The top of the carrier is the flight deck, where aircraft are launched and recovered. On the starboard side of this is the island, where air-traffic control and the bridge are located.

The constraints of constructing a flight deck affect the role of a given carrier strongly, as they influence the weight, type, and configuration of the aircraft that may be launched. For example, assisted launch mechanisms are used primarily for heavy aircraft, especially those loaded with air-to-ground weapons. CATOBAR is most commonly used on USN supercarriers as it allows the deployment of heavy jets with full loadouts, especially on ground-attack missions. STOVL is used by other navies because it is cheaper to operate and still provides good deployment capability for fighter aircraft.

The first carrier landing and take-off of a jet aircraft: Eric "Winkle" Brown landing on HMS Ocean (R68) in 1945.

Due to the busy nature of the flight deck, only 20 or so aircraft may be on it at any one time. A hangar storage several decks below the flight deck is where most aircraft are kept, and aircraft are taken from the lower storage decks to the flight deck through the use of an elevator. The hangar is usually quite large and can take up several decks of vertical space.[36]

Munitions are commonly stored on the lower decks because they are highly explosive should the compartment they are in be breached. Usually this is below the water line so that the area can be flooded in case of emergency.

Flight deck

Main article: Flight deck
Catapult launches aboard USS Ronald Reagan
Expansive Flight Deck of INS Vikramaditya at night showing the ski-jump ramp used for STOBAR configuration
An F-35B Lightning II aircraft lands aboard the amphibious assault ship USS Wasp (LHD 1)

As "runways at sea", aircraft carriers have a flat-top flight deck, which launches and recovers aircraft. Aircraft launch forward, into the wind, and are recovered from astern. The flight deck is where the most notable differences between a carrier and a land runway are found. Creating such a surface at sea poses constraints on the carrier – for example, the fact that it is a ship means that a full-length runway would be costly to construct and maintain. This affects take-off procedure, as a shorter runway length of the deck requires that aircraft accelerate more quickly to gain lift. This either requires a thrust boost, a vertical component to its velocity, or a reduced take-off load (to lower mass). The differing types of deck configuration, as above, influence the structure of the flight deck. The form of launch assistance a carrier provides is strongly related to the types of aircraft embarked and the design of the carrier itself.

There are two main philosophies in order to keep the deck short: add thrust to the aircraft, such as using a Catapult Assisted Take-Off (CATO-); and changing the direction of the airplanes' thrust, as in Vertical and/or Short Take-Off (V/STO-). Each method has advantages and disadvantages of its own:

On the recovery side of the flight deck, the adaptation to the aircraft loadout is mirrored. Non-VTOL or conventional aircraft cannot decelerate on their own, and almost all carriers using them must have arrested-recovery systems (-BAR, e.g. CATOBAR or STOBAR) to recover their aircraft. Aircraft that are landing extend a tailhook that catches on arrestor wires stretched across the deck to bring themselves to a stop in a short distance. Post-WWII Royal Navy research on safer CATOBAR recovery eventually lead to universal adoption of a landing area angled off axis to allow aircraft who missed the arresting wires to "bolt" and safely return to flight for another landing attempt rather than crashing into aircraft on the forward deck.

If the aircraft are VTOL-capable or helicopters, they do not need to decelerate and hence there is no such need. The arrested-recovery system has used an angled deck since the 1950s because, in case the aircraft does not catch the arresting wire, the short deck allows easier take off by reducing the number of objects between the aircraft and the end of the runway. It also has the advantage of separating the recovery operation area from the launch area. Helicopters and aircraft capable of vertical or short take-off and landing (V/STOL) usually recover by coming abreast the carrier on the port side and then using their hover capability to move over the flight deck and land vertically without the need for arresting gear.

Staff and Deck Operations

F/A-18 landing video

Carriers steam at speed, up to 35 knots (65 km/h) into the wind during flight deck operations to increase wind speed over the deck to a safe minimum. This increase in effective wind speed provides a higher launch airspeed for aircraft at the end of the catapult stroke or ski-jump, as well as making recovery safer by reducing the difference between the relative speeds of the aircraft and ship.

Since the early 1950s on conventional carriers it has been the practice to recover aircraft at an angle to port of the axial line of the ship. The primary function of this angled deck is to allow aircraft that miss the arresting wires, referred to as a bolter, to become airborne again without the risk of hitting aircraft parked forward. The angled deck allows the installation of one or two "waist" catapults in addition to the two bow cats. An angled deck also improves launch and recovery cycle flexibility with the option of simultaneous launching and recovery of aircraft.

Conventional ("tailhook") aircraft rely upon a landing signal officer (LSO, sometimes called paddles) to monitor the aircraft's approach, visually gauge glideslope, attitude, and airspeed, and transmit that data to the pilot. Before the angled deck emerged in the 1950s, LSOs used colored paddles to signal corrections to the pilot (hence the nickname). From the late 1950s onward, visual landing aids such as Optical Landing System have provided information on proper glide slope, but LSOs still transmit voice calls to approaching pilots by radio.

F/A-18 Hornets on the flight deck of the Nimitz-class Harry S. Truman

Key personnel involved in the flight deck include the shooters, the handler, and the air boss. Shooters are naval aviators or Naval Flight Officers and are responsible for launching aircraft. The handler works just inside the island from the flight deck and is responsible for the movement of aircraft before launching and after recovery. The "air boss" (usually a commander) occupies the top bridge (Primary Flight Control, also called primary or the tower) and has the overall responsibility for controlling launch, recovery and "those aircraft in the air near the ship, and the movement of planes on the flight deck, which itself resembles a well-choreographed ballet."[37] The captain of the ship spends most of his time one level below primary on the Navigation Bridge. Below this is the Flag Bridge, designated for the embarked admiral and his staff.

To facilitate working on the flight deck of a U.S. aircraft carrier, the sailors wear colored shirts that designate their responsibilities. There are at least seven different colors worn by flight deck personnel for modern United States Navy carrier air operations. Carrier operations of other nations use similar color schemes.

Deck structures

Island control structure of the USS Enterprise (CVN-65).

The superstructure of a carrier (such as the bridge, flight control tower) are concentrated in a relatively small area called an island, a feature pioneered on the HMS Hermes in 1923. While the island is usually built on the starboard side of the fight deck, the Japanese aircraft carriers Akagi and Hiryū had their islands built on the port side. Very few carriers have been designed or built without an island. The flush deck configuration proved to have significant drawbacks, primary of which was management of the exhaust from the power plant. Fumes coming across the deck were a major issue in the USS Langley (CV-1). In addition, lack of an island meant difficulties managing the flight deck, performing air traffic control, a lack of radar housing placements and problems with navigating and controlling the ship itself.[38]

Another deck structure that can be seen is a ski-jump ramp at the forward end of the flight deck. This was first developed to help launch STOVL aircraft take off at far higher weights than is possible with a vertical or rolling takeoff on flat decks. Originally developed by the Royal Navy, it since has been adopted by many navies for smaller carriers. A ski-jump ramp works by converting some of the forward rolling movement of the aircraft into vertical velocity and is sometimes combined with the aiming of jet thrust partly downwards. This allows heavily loaded and fueled aircraft a few more precious seconds to attain sufficient air velocity and lift to sustain normal flight. Without a ski-jump launching fully loaded and fueled aircraft such as the Harrier would not be possible on a smaller flat deck ship before either stalling out or crashing directly into the sea.

Ski-jump on Royal Navy carrier HMS Invincible (R05)

Although STOVL aircraft are capable of taking off vertically from a spot on the deck, using the ramp and a running start is far more fuel efficient and permits a heavier launch weight. As catapults are unnecessary, carriers with this arrangement reduce weight, complexity, and space needed for complex steam or electromagnetic launching equipment, vertical landing aircraft also remove the need for arresting cables and related hardware. Russian, Chinese, and future Indian carriers include a ski-jump ramp for launching lightly loaded conventional fighter aircraft but recover using traditional carrier arresting cables and a tailhook on their aircraft.

The disadvantage of the ski-jump is the penalty it exacts on aircraft size, payload, and fuel load (and thus range); heavily laden aircraft can not launch using a ski-jump because their high loaded weight requires either a longer takeoff roll than is possible on a carrier deck, or assistance from a catapult or JATO rocket. For example the Russian Su-33 is only able to launch from the carrier Kuznetsov with a minimal armament and fuel load. Another disadvantage is on mixed flight deck operations where helicopters are also present such as a US Landing Helicopter Dock or Landing Helicopter Assault amphibious assault ship a ski jump is not included as this would eliminate one or more helicopter landing areas, this flat deck limits the loading of Harriers but is somewhat mitigated by the longer rolling start provided by a long flight deck compared to many STOVL carriers.

National fleets

Chart of aircraft and helicopter carriers from around the world

A total of 20 fleet carriers are in active service with ten navies. Additionally, the navies of Australia, Brazil, China, France, India, Italy, Japan, South Korea, Spain, Thailand and the United States also operate ships capable of carrying and operating multiple helicopters and STOVL aircraft.

Australia

HMAS Canberra, a Canberra -class landing helicopter dock under construction.

Future

The Canberra class of landing helicopter docks, based on the Spanish vessel Juan Carlos I, is composed of two ships one of which has just entered service. The class is being built by Navantia and BAE Systems Australia; and HMAS Canberra is the largest ship ever built for the Royal Australian Navy.[39] Canberra underwent sea trials in late 2013 and has been commissioned in 2014, while HMAS Adelaide is expected to enter service in 2016. The Australian version retains the ski-ramp from the Juan Carlos I design, although the RAN has not acquired carrier based fixed-wing aircraft.

Brazil

NAe São Paulo (A12) aircraft carrier of the Brazilian Navy

Current

1 CATOBAR carrier: NAe São Paulo (A12) is a Clemenceau-class aircraft carrier currently in service with the Brazilian Navy. The São Paulo was first commissioned in 1963 by the French Navy as the Foch and was transferred in 2000 to Brazil, where she became the new flagship of the Brazilian Navy. During the period from 2005–2010, the São Paulo underwent extensive modernization.[40] At the end of 2010, sea trials began, and as of 2011 the São Paulo had been evaluated by the CIASA (Inspection Commission and Training Advisory). She was expected to rejoin the fleet in late 2013, but suffered another major fire in 2012.[41]

China

China’s first aircraft carrier Liaoning under refit in Dalian Shipbuilding Industry Company

Current

1 STOBAR carrier: Liaoning was originally built as the 57,000 tonne Soviet Kuznetsov-class carrier Varyag[42] and was later purchased as a stripped hulk by China in 1998 on the pretext of use as a floating casino, then partially rebuilt and towed to China for completion.[43][44] The Liaoning was commissioned on 25 September 2012, and began service for testing and training.[45] On 24 or 25 November 2012, Liaoning successfully launched and recovered several Shenyang J-15 jet fighter aircraft.[46][47][48] She is classified as a training ship, intended to allow the Navy to practice with carrier usage. On 26 December 2012, the People's Daily reported that it will take 4 to 5 years for Liaoning to reach full capacity, mainly due to training and coordination which will take significant amount of time for Chinese PLA Navy to complete as this is the first aircraft carrier in their possession.[49] As it is a training ship, Liaoning is not assigned to any of China's operation fleets.[50]

France

Charles de Gaulle aircraft carrier of the French Navy.

Current

1 CATOBAR carrier: Charles de Gaulle (R91) is a 42,000 tonne nuclear-powered aircraft carrier, commissioned in 2001 and is the flagship of the French Navy (Marine Nationale). The ship carries a complement of Dassault-Breguet Super Étendard, Dassault Rafale M and E2C Hawkeye aircraft, EC725 Caracal and AS532 Cougar helicopter for combat search and rescue, as well as modern electronics and Aster missiles. It is a CATOBAR-type carrier that uses two 75 m C13‑3 steam catapults of a shorter version of the catapult system installed on the U.S. Nimitz class carriers, one catapult at the bow and one across the front of the landing area.[51]

3 Amphibious assault ships: Mistral-class, 21,500 tonne full deck amphibious assault ships with hospital and well deck.

India

The Indian Navy's aircraft carriers INS Vikramaditya and INS Viraat in 2014.

Current

1 STOBAR carrier: INS Vikramaditya, 45,400 tonnes, modified Kiev-class. The carrier was purchased by India on 20 January 2004 after years of negotiations at a final price of $2.35 billion. The ship successfully completed her sea trials in July 2013 and aviation trials in September 2013. She was formally commissioned on 16 November 2013 at a ceremony held at Severodvinsk, Russia.[52]

1 STOVL carrier: INS Viraat: 28,700 tonne ex-British STOVL converted carrier HMS Hermes (launched 1953), purchased in 1986 and commissioned in 1987, scheduled to be decommissioned by 2016.[53]

Future

India started the construction of a 40,000-tonne, 260-metre-long Vikrant-class aircraft carrier in 2009.[54] The new carrier will operate MiG-29K and naval HAL Tejas aircraft along with the Indian-made helicopter HAL Dhruv.[54] The ship will be powered by four gas-turbine engines and will have a range of 8,000 nautical miles (15,000 kilometres), carrying 160 officers, 1,400 sailors, and 30 aircraft. The carrier is being constructed by Cochin Shipyard.[54] The ship was launched in August 2013 and is scheduled for commissioning in 2018.[21][55][56][57]

A second Vikrant-class carrier INS Vishal with a displacement of over 65,000 tons is planned and likely to be nuclear-powered with CATOBAR system to launch heavier and unmanned combat aircrafts . The project was in design phase as of April 2015.[58]

Italy

Cavour aircraft carrier of the Italian Navy.

Current

2 STOVL carriers:

Japan

Helicopter carrier Hyūga (16DDH)

Current

2 helicopter carrier ships:Hyūga-class helicopter destroyer 19,000 tons (full load) anti-submarine warfare carrier with enhanced command-and-control capabilities allowing them to serve as fleet flagships.

Future

In August 2013, A launching ceremony for Japan's largest military ship since World War II was held in Yokohama on Tuesday, 6 August. The 820-foot-long, 19,500 tons (27,000 tons full load) flattop destroyer Izumo will be deployed in March 2015.[25]

Russia

Russian aircraft carrier Admiral Kuznetsov

Current

1 STOBAR carrier: Admiral Flota Sovetskovo Soyuza Kuznetsov: 55,000 tonne Kuznetsov-class STOBAR aircraft carrier. Launched in 1985 as Tbilisi, renamed and operational from 1995. Without catapults she can launch and recover lightly fueled naval fighters for air defense or anti-ship missions but not heavy conventional bombing strikes. Officially designated an aircraft carrying cruiser, she is unique in carrying a heavy cruiser's compliment of defensive weapons and large P-700 Granit offensive missiles. The P-700 systems will be removed in the coming refit to enlarge her below decks aviation facilities as well as upgrading her defensive systems.[60][61]

Spain

Current

1 STOVL carrier: Juan Carlos I (L61): 27,000 tonne, Specially designed multipurpose strategic projection ship which can operate as an amphibious assault ship or STOVL carrier depending on mission requirement, has full facilities for both functions including a ski jump ramp, well deck, and vehicle storage area which can be used as additional hangar space, launched in 2008, commissioned 30 September 2010.[62]

South Korea

ROKS Dokdo, a Dokdo -class amphibious assault ship of the Republic of Korea Navy.

Current

One Dokdo-class amphibious assault ship 18,860 ton full deck amphibious assault ship with hospital and well deck and facilities to serve as fleet flagship.

Future

South Korea believes it can procure 2 light aircraft carriers by 2036, which will help make the ROKN a blue water navy.[29]

Thailand

Current

1 Offshore helicopter support ship: HTMS Chakri Naruebet helicopter carrier: 11,400 tonne STOVL carrier based on Spanish Príncipe de Asturias design. Commissioned in 1997. The AV-8S Matador/Harrier STOVL fighter wing, mostly inoperable by 1999,[63] was retired from service without replacement in 2006.[64] Ship now used for royal transport, helicopter operations, and as a disaster relief platform.[65]

United Kingdom

Current

One amphibious assault ship: HMS Ocean. A 21,750 ton full deck amphibious assault ship based on the Invincible-class aircraft carrier hull[66] but without facilities for fixed wing aviation.

Future

The Royal Navy is constructing two new larger STOVL aircraft carriers, the Queen Elizabeth class, to replace the three Invincible-class carriers. The ships are HMS Queen Elizabeth and HMS Prince of Wales.[30][31] They will be able to operate up to 40 aircraft on peace time operations with a tailored group of up to 50, and will have a displacement of 70,600 tonnes. The ships are due to become operational from 2020.[32] Their primary aircraft complement will be made up of F-35B Lightning IIs, and their ship's company will number around 680 with the total complement rising to about 1600 when the air group is embarked. The two ships will be the largest warships ever built for the Royal Navy.

United States

Amphibious assault ship USS Wasp

Current

10 CATOBAR carriers: Nimitz class: ten 101,000 ton nuclear-powered supercarriers, the first of which was commissioned in 1975. A Nimitz-class carrier is powered by two nuclear reactors and four steam turbines and is 1,092 feet (333 m) long.

9 Amphibious assault ships:

USS Gerald R. Ford, a Gerald R. Ford-class aircraft carrier

Future

The current US fleet of Nimitz-class carriers will be followed into service (and in some cases replaced) by the Gerald R. Ford class. It is expected that the ships will be more automated in an effort to reduce the amount of funding required to maintain and operate its supercarriers. The main new features are implementation of Electromagnetic Aircraft Launch System (EMALS) (which replace the old steam catapults) and unmanned aerial vehicles.[34]

With the deactivation of the USS Enterprise in December 2012 (decommissioning scheduled for 2013), the U.S. fleet comprises 10 supercarriers. The House Armed Services Seapower subcommittee on 24 July 2007, recommended seven or maybe eight new carriers (one every four years). However, the debate has deepened over budgeting for the $12–14.5 billion (plus $12 billion for development and research) for the 100,000 ton Gerald R. Ford-class carrier (estimated service 2016) compared to the smaller $2 billion 45,000 ton America-class amphibious assault ships able to deploy squadrons of F-35Bs, of which two are already under construction and twelve are planned.[35][67]

See also

Related lists

References

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Further reading

  • Ader, Clement. Military Aviation, 1909, Edited and translated by Lee Kennett, Air University Press, Maxwell Air Force Base, Alabama, 2003, ISBN 978-1-58566-118-3.
  • Francillon, René J, Tonkin Gulf Yacht Club US Carrier Operations off Vietnam, (1988) ISBN 978-0-87021-696-1.
  • Friedman, Norman, U.S. Aircraft Carriers: an Illustrated Design History, Naval Institute Press, 1983. ISBN 978-0-87021-739-5.
  • Hone, Thomas C., Norman Friedman, and Mark D. Mandeles. "Innovation in Carrier Aviation," Naval War College Newport Papers (no. 37, 2011), 1–171.
  • Melhorn, Charles M. Two-Block Fox: The Rise of the Aircraft Carrier, 1911-1929 (Naval Institute Press, 1974)
  • Nordeen, Lon, Air Warfare in the Missile Age, (1985) ISBN 978-1-58834-083-2
  • Polak, Christian (2005). Sabre et Pinceau: Par d'autres Français au Japon. 1872–1960 (in French and Japanese). Hiroshi Ueki (植木 浩), Philippe Pons, foreword; 筆と刀・日本の中のもうひとつのフランス (1872–1960). éd. L'Harmattan.
  • Sturtivant, Ray (1990). British Naval Aviation, The Fleet Air Arm, 1917–1990. London: Arm & Armour Press. ISBN 0-85368-938-5.
  • Till, Geoffrey. "Adopting the Aircraft Carrier: The British, Japanese, and American Case Studies" in Murray, Williamson; Millet, Allan R, eds. (1996). Military Innovation in the Interwar Period. Cambridge University Press.
  • Trimble, William F. Admiral William A. Moffett: Architect of Naval Aviation (Smithsonian Institution Press, 1994)
  • Wadle, Ryan David. United States navy fleet problems and the development of carrier aviation, 1929-1933 PhD dissertation Texas A&M University, 2005. online

External links

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