The Electromagnetic Aircraft Launch System (EMALS) is a type of aircraft launching system developed by

General Atomics General Atomics is an American energy and defense corporation headquartered in San Diego, California, specializing in research and technology development. This includes physics research in support of nuclear fission and nuclear fusion energy. Th ...

for the

United States Navy The United States Navy (USN) is the maritime service branch of the United States Armed Forces and one of the eight uniformed services of the United States. It is the largest and most powerful navy in the world, with the estimated tonnage ...

. The system launches

carrier-based aircraft Carrier-based aircraft, sometimes known as carrier-capable aircraft or carrier-borne aircraft, are naval aircraft designed for operations from aircraft carriers. They must be able to launch in a short distance and be sturdy enough to withstand ...

by means of a

catapult A catapult is a ballistic device used to launch a projectile a great distance without the aid of gunpowder or other propellants – particularly various types of ancient and medieval siege engines. A catapult uses the sudden release of stor ...

employing a

linear induction motor A linear induction motor (LIM) is an alternating current (AC), asynchronous linear motor that works by the same general principles as other induction motors but is typically designed to directly produce motion in a straight line. Characteristica ...

rather than the conventional steam piston. EMALS was first installed on the

lead ship The lead ship, name ship, or class leader is the first of a series or class of ships all constructed according to the same general design. The term is applicable to naval ships and large civilian vessels. Large ships are very complex and may ...

of the , the USS ''Gerald R. Ford''. Its main advantage is that it accelerates aircraft more smoothly, putting less stress on their

airframe The mechanical structure of an aircraft is known as the airframe. This structure is typically considered to include the fuselage, undercarriage, empennage and wings, and excludes the propulsion system. Airframe design is a field of aerospa ...

s. Compared to steam catapults, the EMALS also weighs less, is expected to cost less and require less maintenance, and can launch both heavier and lighter aircraft than a steam piston-driven system. It also reduces the carrier's requirement of fresh water, thus reducing the demand for energy-intensive

desalination Desalination is a process that takes away mineral components from saline water. More generally, desalination refers to the removal of salts and minerals from a target substance, as in soil desalination, which is an issue for agriculture. Salt ...

Design and development

Developed in the 1950s,

steam catapults An aircraft catapult is a device used to allow aircraft to take off from a very limited amount of space, such as the deck of a vessel, but can also be installed on land-based runways in rare cases. It is now most commonly used on aircraft carrier ...

have proven exceptionally reliable. Carriers equipped with four steam catapults have been able to use at least one of them 99.5% of the time. However, there are a number of drawbacks. One group of Navy engineers wrote: "The foremost deficiency is that the catapult operates without feedback control. With no feedback, there often occurs large

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in tow force that can damage or reduce the life of the airframe." The steam system is massive, inefficient (4–6% useful work), and hard to control. These control problems allow steam-powered catapults to launch heavy aircraft, but not aircraft as light as many

unmanned aerial vehicle An unmanned aerial vehicle (UAV), commonly known as a drone, is an aircraft without any human pilot, crew, or passengers on board. UAVs are a component of an unmanned aircraft system (UAS), which includes adding a ground-based controll ...

s. A system somewhat similar to EMALS, Westinghouse's ''electropult'', was developed in 1946 but not deployed.

Linear induction motor

The EMALS uses a

(LIM), which uses

alternating current Alternating current (AC) is an electric current which periodically reverses direction and changes its magnitude continuously with time in contrast to direct current (DC) which flows only in one direction. Alternating current is the form in whic ...

(AC) to generate magnetic fields that propel a carriage along a track to launch the aircraft. The EMALS consists of four main elements: The linear induction motor consists of a row of

stator The stator is the stationary part of a rotary system, found in electric generators, electric motors, sirens, mud motors or biological rotors. Energy flows through a stator to or from the rotating component of the system. In an electric m ...

coils with the same function as the circular stator coils in a conventional induction motor. When energized, the motor accelerates the carriage along the track. Only the section of the coils surrounding the carriage is energized at any given time, thereby minimizing reactive losses. The EMALS's LIM can accelerate a aircraft to .

Energy-storage subsystem

During a launch, the induction motor requires a large surge of

electric power Electric power is the rate at which electrical energy is transferred by an electric circuit. The SI unit of power is the watt, one joule per second. Standard prefixes apply to watts as with other SI units: thousands, millions and billions ...

that exceeds what the ship's own continuous power source can provide. The EMALS energy-storage system design accommodates this by drawing power from the ship during its 45-second recharge period and storing the energy kinetically using the rotors of four disk

alternator An alternator is an electrical generator that converts mechanical energy to electrical energy in the form of alternating current. For reasons of cost and simplicity, most alternators use a rotating magnetic field with a stationary armature.Gor ...

s; the system then releases that energy (up to 484 MJ) in 2–3 seconds. Each rotor delivers up to (approximately one

gasoline gallon equivalent Gasoline gallon equivalent (GGE) or gasoline-equivalent gallon (GEG) is the amount of an alternative fuel it takes to equal the energy content of one liquid gallon of gasoline. GGE allows consumers to compare the energy content of competing fue ...

) and can be recharged within 45 seconds of a launch; this is faster than steam catapults. A maximum-performance launch using 121 MJ of energy from each disk alternator slows the rotors from 6400 rpm to 5205 rpm.

Power-conversion subsystem

During the launch, the power-conversion subsystem releases the stored energy from the disk alternators using a

cycloconverter A cycloconverter (CCV) or a cycloinverter converts a constant amplitude, constant frequency AC waveform to another AC waveform of a lower frequency by synthesizing the output waveform from segments of the AC supply without an intermediate DC lin ...

. The cycloconverter provides a controlled rising frequency and voltage to the LIM, energizing only the small portion of stator coils that affect the launch carriage at any given moment.

Control consoles

Operators control the power through a closed-loop system.

Hall-effect sensor A Hall effect sensor (or simply Hall sensor) is a type of sensor which detects the presence and magnitude of a magnetic field using the Hall effect. The output voltage of a Hall sensor is directly proportional to the strength of the field. I ...

s on the track monitor its operation, allowing the system to ensure that it provides the desired acceleration. The closed-loop system allows the EMALS to maintain a constant tow force, which helps reduce launch stresses on the plane's airframe.

Program status

Aircraft Compatibility Testing (ACT) Phase 1 concluded in late 2011 following 134 launches (aircraft types comprising the F/A-18E Super Hornet, T-45C Goshawk, C-2A Greyhound, E-2D Advanced Hawkeye, and F-35C Lightning II) using the EMALS demonstrator installed at Naval Air Engineering Station Lakehurst. On completion of ACT 1, the system was reconfigured to be more representative of the actual ship configuration on board the , which will use four catapults sharing several energy storages and power conversion subsystems. * 1–2 June 2010: Successful launch of a McDonnell Douglas T-45 Goshawk. * 9–10 June 2010: Successful launch of a

Grumman C-2 Greyhound The Grumman C-2 Greyhound is a twin-engine, high-wing cargo aircraft designed to carry supplies, mail, and passengers to and from aircraft carriers of the United States Navy. Its primary mission is carrier onboard delivery (COD). The aircraft p ...

. * 18 December 2010: Successful launch of a Boeing F/A-18E Super Hornet. * 27 September 2011: Successful launch of a Northrop Grumman E-2D Advanced Hawkeye. * 18 November 2011: Successful launch of a Lockheed Martin F-35 Lightning II. ACT Phase 2 began on 25 June 2013 and concluded on 6 April 2014 after a further 310 launches (including launches of the

Boeing EA-18G Growler The Boeing EA-18G Growler is an American carrier-based electronic warfare aircraft, a specialized version of the two-seat F/A-18F Super Hornet. The EA-18G replaced the Northrop Grumman EA-6B Prowlers in service with the United States Navy. The ...

and McDonnell Douglas F/A-18C Hornet, as well as another round of testing with aircraft types previously launched during Phase 1). In Phase 2, various carrier situations were simulated, including off-center launches and planned system faults, to demonstrate that aircraft could meet end-speed and validate launch-critical reliability. * June 2014: The Navy completed EMALS prototype testing of 450 manned aircraft launches involving every fixed-wing carrier-borne aircraft type in the USN inventory at

Joint Base McGuire–Dix–Lakehurst Joint Base McGuire–Dix–Lakehurst (JB MDL) is a United States military facility located southeast of Trenton, New Jersey. The base is the only tri-service base in the United States Department of Defense and includes units from all six armed ...

during two Aircraft Compatibility Testing (ACT) campaigns. * May 2015: First full-speed shipboard tests conducted.

Delivery and deployment

On 28 July 2017, Lt. Cmdr. Jamie "Coach" Struck of Air Test and Evaluation Squadron 23 (VX-23) performed the first EMALS catapult launch from USS ''Gerald R. Ford'' (CVN-78) in an

F/A-18F Super Hornet The Boeing F/A-18E and F/A-18F Super Hornet are twin-engine, carrier-capable, multirole fighter aircraft variants based on the McDonnell Douglas F/A-18 Hornet. The F/A-18E single-seat and F/A-18F tandem-seat variants are larger and more ad ...

. By April 2021, 8,000 launch/recovery cycles had been performed with the EMALS and the AAG arrestor system aboard USS ''Gerald R. Ford''. The USN also stated that the great majority of these cycles had occurred in the prior 18 months and that 351 pilots had completed training on the EMALS/AAG.

Advantages

Compared to steam catapults, EMALS weighs less, occupies less space, requires less maintenance and manpower, is more reliable, recharges quicker, and uses less energy. Steam catapults, which use about of steam per launch, have extensive mechanical, pneumatic, and hydraulic subsystems. EMALS uses no steam, which makes it suitable for the US Navy's planned all-electric ships. Compared to steam catapults, EMALS can control the launch performance with greater precision, allowing it to launch more kinds of aircraft, from heavy fighter jets to light unmanned aircraft. With up to 121 megajoules available, each one of the four disk alternators in the EMALS system can deliver 29% more energy than a steam catapult's approximately 95 MJ. The EMALS, with their planned 90% power conversion efficiency, will also be more efficient than steam catapults, which achieve only a 5% efficiency.

Criticisms

In May 2017, President

Donald Trump Donald John Trump (born June 14, 1946) is an American politician, media personality, and businessman who served as the 45th president of the United States from 2017 to 2021. Trump graduated from the Wharton School of the University of P ...

criticized EMALS during an interview with ''

Time Time is the continued sequence of existence and event (philosophy), events that occurs in an apparently irreversible process, irreversible succession from the past, through the present, into the future. It is a component quantity of various me ...

'', saying that in comparison to traditional steam catapults, "the digital costs hundreds of millions of dollars more money and it's no good". President Trump's criticism was echoed by a highly critical 2018 report from the Pentagon, which emphasized that reliability of EMALS leaves much to be desired and that the average rate of critical failures is nine times higher than the Navy's threshold requirements.

Reliability

In 2013, at the Lakehurst, New Jersey test site, 201 of 1,967 test launches failed, giving a 10% failure rate for the test series. . Factoring in the then-current state of the system, the most generous numbers available in 2013 showed that EMALS has an average "time between failure" rate of 1 in 240. According to a March 2015 report, "Based on expected reliability growth, the failure rate for the last reported Mean Cycles Between Critical Failure was five times higher than should have been expected. As of August 2014, the Navy has reported that over 3,017 launches have been conducted at the Lakehurst test site, but have not provided DOT&E irector, Operational Test and Evaluationwith an update of failures." In the test configuration, EMALS could not launch fighter aircraft with external

drop tank In aviation, a drop tank (external tank, wing tank or belly tank) is used to describe auxiliary fuel tanks externally carried by aircraft. A drop tank is expendable and often capable of being jettisoned. External tanks are commonplace on modern ...

s mounted. "The Navy has developed fixes to correct these problems, but testing with manned aircraft to verify the fixes has been postponed to 2017". In July 2017 the system was successfully tested at sea on the USS ''Gerald R. Ford''. A January 2021 DOT&E Report stated: "During the 3,975 catapult launches ..EMALS demonstrated an achieved reliability of 181 mean cycles between operational mission failure (MCBOMF) ..This reliability is well below the requirement of 4,166 MCBOMF." EMALS breaks down often and is not reliable, the Pentagon's director of testing Robert Behler reported after assessing 3,975 cycles on the USS Gerald R. Ford from November 2019 through September 2020. In April 2022, Rear Adm. Shane G. Gahagan at Naval Air Systems Command said that, despite reports to the contrary, the system is working fine and has achieved 8,500 "cats and traps" on the USS ''Gerald R. Ford'' over the past two years. On 25 June 2022, the major milestone of 10,000 successful catapult launches and arrested landings aboard USS ''Gerald R. Ford'' was achieved. A June 2022 GAO report states "The Navy also continues to struggle with the reliability of the electromagnetic aircraft launch system and advanced arresting gear needed to meet requirements to rapidly deploy aircraft." The report also indicates the Navy doesn't expect EMALS and AAG to reach reliability goals until the "2030's"

Other users of the General Atomics system

France

The French Navy is actively planning for a future aircraft carrier and new flagship. It is known in French as (new-generation aircraft carrier), or by the acronym PANG. The ship will be nuclear-powered and feature the EMALS catapult system. Construction of the PANG is expected to begin around 2025 and will enter service in 2038, the year the aircraft carrier is due to be retired.

India

The

Indian Navy The Indian Navy is the maritime branch of the Indian Armed Forces. The President of India is the Supreme Commander of the Indian Navy. The Chief of Naval Staff, a four-star admiral, commands the navy. As a blue-water navy, it operates si ...

has shown an interest in installing the EMALS system for its planned

CATOBAR CATOBAR ("Catapult Assisted Take-Off But Arrested Recovery" or "Catapult Assisted Take-Off Barrier Arrested Recovery") is a system used for the launch and recovery of aircraft from the deck of an aircraft carrier. Under this technique, aircraft ...

INS Vishal aircraft carrier. The Indian government has shown interest in producing the Electromagnetic Aircraft Launch System locally with the assistance of

United Kingdom

Converteam UK were working on an

electromagnetic catapult An electromagnetic catapult, also called EMALS ("electromagnetic aircraft launch system") after the specific US system, is a type of aircraft launching system. Currently, only the United States and China have successfully developed it, and it i ...

(EMCAT) system for the ."Converteam develops catapult launch system for UK carriers"
By Tim Fish, '' Jane's''. 26 July 2010 In August 2009, speculation mounted that the UK may drop the

STOVL A short take-off and vertical landing aircraft (STOVL aircraft) is a fixed-wing aircraft that is able to take off from a short runway (or take off vertically if it does not have a heavy payload) and land vertically (i.e. with no runway). The ...

F-35B for the CTOL F-35C model, which would have meant the carriers being built to operate conventional takeoff and landing aircraft using the UK-designed non-steam EMCAT catapults. In October 2010, the UK Government announced it would buy the F-35C, using a then-undecided

system. A contract was signed in December 2011 with

of San Diego to develop EMALS for the ''Queen Elizabeth''-class carriers. However, in May 2012, the UK Government reversed its decision after the projected costs rose to double the original estimate and delivery moved back to 2023, cancelling the F-35C option and reverting to its original decision to buy the STOVL F-35B.

References

External links

{{Commons category, Electromagnetic Aircraft Launch System
"Electromagnetic Aircraft Launch System – EMALS"
''GlobalSecurity.org''
"Electropult"The electromagnetic rail aircraft launch system, Pt 1: Objectives and principles
EEWorldonline.com
The electromagnetic rail aircraft launch system, Pt 2: Implementation and issues
EEWorldonline.com Aircraft carriers Electromagnetic components Linear induction motors Naval aviation technology