Malloy Aeronautics

Last updated

Malloy Aeronautics
Industry Aerospace
Founded2013
FounderChris Malloy
Headquarters
Maidenhead, England
Key people
Neil Appleton (CEO) [1]
ProductsSee Products
Parent BAE Systems
Website https://www.malloyaeronautics.com

Malloy Aeronautics is a British company which specialises in the research and development of heavy lift vertical take-off and landing (VTOL) unmanned aerial vehicles (UAVs). Based in Maidenhead, England, the company was founded in 2013 by Chris Malloy and has activities in the United Kingdom, United States and Australia. [2] [3] Its products include the T-series of heavy lift drones, which are primarily designed for logistics purposes, for private, commercial, military and government use. In the United States, its products are sold in partnership with SURVICE Engineering. In February 2024, the company was acquired by BAE Systems and merged into its FalconWorks division. [4]

Contents

Products

The company designs and manufactures a range of electrical vertical take-off and landing (eVTOL) drones for private, commercial, military and government use. They are primarily designed for logistics and resupply, but larger models can also be used for casualty evacuation, anti-submarine warfare, mine countermeasures, search and rescue, close air support, surveillance and monitoring. [5] They are capable of autonomous flight and are equipped with sense and avoid technologies and autoland systems. [6]

In the United States, the drones are marketed and manufactured by SURVICE Engineering in Belcamp, Maryland. [7]

T-Series Drones
ProductMaximum payload capacity Range Cruise speed Notes
T8030 kilograms (66 lb)55 kilometres (34 mi)25 metres per second (56 mph) [8]
T15068 kilograms (150 lb)70 kilometres (43 mi)30 metres per second (67 mph) [9]
T400180 kilograms (400 lb)70 kilometres (43 mi)35 metres per second (78 mph) [6]
T600200 kilograms (440 lb)80 kilometres (50 mi)38 metres per second (85 mph) [10]
T650300 kilograms (660 lb)80 kilometres (50 mi)38 metres per second (85 mph) [11]

The T-650 was unveiled in September 2021 at the DSEI trade exhibition in London. It was developed in collaboration with BAE Systems and was showcased carrying a Sting Ray torpedo. [12] In September 2022, it was showcased with three Brimstone ground-attack missiles. [13]

In September 2023, the T600 took part in Exercise REP(MUS) in Portugal and demonstrated its ability to release a Sting Ray torpedo. [10] During the same year, the company had produced nearly 200 drones, a significant increase over the 12-15 it had produced in 2021. To meet this increased demand, the company grew from 30 to 90 employees. [14]

Customers

United States

The JTARV prototype during a flight demonstration in January 2017. Army flies 'hoverbike' prototype.jpg
The JTARV prototype during a flight demonstration in January 2017.

In June 2015, it was reported that the United States Department of Defense had signed a contract with Malloy Aeronautics to develop a derivative of its Malloy Hoverbike, named the Joint Tactical Aerial Resupply Vehicle (JTARV). It was envisioned for multiple roles, including troop transport, surveillance, logistics and resupply. [15] A one-third scale version was developed in the UK for a proof of concept prior to a demonstration of a full-scale prototype by the US Army in September 2016 and January 2017. [16] [17] The prototype was designed for a maximum payload of 136 kilograms (300 lb) with the intention to later increase this to 362 kilograms (798 lb). [18] Initially a US Army project, it was later joined by the US Marine Corps in June 2016. [16]

The DoD also acquired a number of smaller tactical drones under the Tactical Resupply Unmanned Aircraft System (TRUAS) program for trials and experimentation. These included the T80 and the T150, known in service as Tactical Resupply Vehicles (TRVs). [19] These vehicles won first place in a NAVAIR fly-off competition in 2020, ahead of competing vehicles from AirBuoyant, Bell Textron and Pacific Aerospace Consulting. [20] The T150 also participated in trials at sea as part of the US Navy's Fleet Experimentation Program (FLEX) in 2022. The trials involved the drone landing autonomously onboard USNS Burlington (T-EPF-10). [21] In April 2023, the US Navy and Marine Corps placed an order for around 200 TRVs. [22] This was followed by an order for 23 T150s for the US Marine Corps in December 2023. [23] The first six production models entered service in November 2023. [24]

United Kingdom

A Malloy Aeronautics T-150 during trials with the Royal Marines in 2020. Bravo Company, 40 Commando RM test Heavy Lift Drone MOD 45167325.jpg
A Malloy Aeronautics T-150 during trials with the Royal Marines in 2020.
A swarm of six T150s supporting the Royal Marines in 2022; this was the UK's first military drone swarm. FRPUN-20210706-BD0016.jpg
A swarm of six T150s supporting the Royal Marines in 2022; this was the UK's first military drone swarm.

The Ministry of Defence procured an unknown number of drones for use in trials and experimentation. In 2018, Malloy Aeronautics collaborated with Qinetiq and several other industry partners in Team Metis to develop an autonomous resupply vehicle concept for an MOD competition, named Last Mile Resupply. The company's hoverbike was a key part of the concept which ultimately won the competition. [26] [27]

In November 2020, a number of T150 drones were used by the Royal Marines during a trial deployment of the nascent Littoral Response Group (North). The drones were used extensively to fly from ship to shore with ammunition, food and supplies to replenish commandos on the ground. [28] During the same year, under Project Minerva, the MOD awarded Malloy Aeronautics a contract to develop its T80 drone to be used as a man overboard recovery system for the Royal Navy. [29] The Royal Navy also tested a Malloy Aeronautics drone for its ability to operate in extreme weather conditions, as well as its ability to land on moving vessels. [30] In August 2020, three T150s were showcased onboard aircraft carrier HMS Prince of Wales (R09) with each configured differently with cargo, an unmanned underwater vehicle (UUV) and a life raft delivery system. [31]

In July 2021, six T150s were used by the Royal Marines in the UK's first military drone swarm. The swarm was autonomously controlled from a single ground control station and was tasked with resupplying commandos with ammunition and blood. It was later re-tasked to carry out reconnaissance for commando raids. [25]

The T600 participated in the Royal Navy's two Heavy Lift Challenges held in 2021 and 2022. These challenges tested a variety of commercially available drones for their ability to carry supplies to the frontline for disaster relief or to support Royal Marines operations. They were also tested for their ability to supply vessels, such as aircraft carriers. [32] The first challenge involved lifting payloads greater than 100 kg but this was upscaled to 200 kg in the second challenge. The results were described as "spectacular" by Royal Navy Chief Technology Officer Brigadier Dan Cheesman CBE. [33] [34]

In November 2022, the British Army trialed a T400 for casualty evacuation (CASEVAC). [35]

In February 2024, following years of trials use, the Royal Marines confirmed an order for 22 T150s. [36]

Other

An undisclosed number of T150s were supplied to Ukraine by the United Kingdom as military aid during the Russo-Ukrainian War. [37] They were used to deliver blood, munitions and other key supplies to Ukrainian marines operating on the bank of the Dnieper river. [38] Russian forces have claimed to have downed at least one of the drones, which they stated was fitted with an explosive device. [39]

Japan ordered two T150's for evaluation in February 2024. [36]

In October 2023, Danish energy company Ørsted trialed a Malloy Aeronautics drone to service a wind turbine in the Hornsea Wind Farm in a world first. [40]

Related Research Articles

<span class="mw-page-title-main">IAI RQ-5 Hunter</span> Type of aircraft

The IAI RQ-5 Hunter unmanned aerial vehicle (UAV) was originally intended to serve as the United States Army's Short Range UAV system for division and corps commanders. It took off and landed on runways. It used a gimbaled EO/IR sensor to relay its video in real time via a second airborne Hunter over a C-band line-of-sight data link. The RQ-5 is based on the Hunter UAV that was developed by Israel Aerospace Industries.

<span class="mw-page-title-main">AAI RQ-7 Shadow</span> American unmanned aerial vehicle

The AAI RQ-7 Shadow is an American unmanned aerial vehicle (UAV) used by the United States Army, Australian Army, Swedish Army, Turkish Air Force and Italian Army for reconnaissance, surveillance, target acquisition and battle damage assessment. Launched from a trailer-mounted pneumatic catapult, it is recovered with the aid of arresting gear similar to jets on an aircraft carrier. Its gimbal-mounted, digitally stabilized, liquid nitrogen-cooled electro-optical/infrared (EO/IR) camera relays video in real time via a C-band line-of-sight data link to the ground control station (GCS).

<span class="mw-page-title-main">Intelligence, surveillance, target acquisition, and reconnaissance</span> Military doctrinal concept

ISTAR stands for intelligence, surveillance, target acquisition, and reconnaissance. In its macroscopic sense, ISTAR is a practice that links several battlefield functions together to assist a combat force in employing its sensors and managing the information they gather.

<span class="mw-page-title-main">Boeing Insitu ScanEagle</span> Reconnaissance unmanned aerial vehicle

The Boeing Insitu ScanEagle is a small, long-endurance, low-altitude unmanned surveillance and reconnaissance aerial vehicle built by Insitu, a subsidiary of Boeing, and is used for reconnaissance. The ScanEagle was designed by Insitu based on the Insitu SeaScan, a commercial UAV that was intended for fish-spotting. The ScanEagle continues to receive improvements through upgrades and changes.

<span class="mw-page-title-main">General Atomics MQ-9 Reaper</span> American unmanned aerial vehicle

The General Atomics MQ-9 Reaper is an unmanned aerial vehicle capable of remotely controlled or autonomous flight operations, developed by General Atomics Aeronautical Systems (GA-ASI) primarily for the United States Air Force (USAF). The MQ-9 and other UAVs are referred to as Remotely Piloted Vehicles/Aircraft (RPV/RPA) by the USAF to indicate ground control by humans.

<span class="mw-page-title-main">General Atomics Aeronautical Systems</span> Subsidiary of General Atomics

General Atomics Aeronautical Systems, Inc. (GA-ASI) is a military contractor and subsidiary of General Atomics that designs and manufactures unmanned aerial vehicles and radar systems for the U.S. military and commercial applications worldwide.

<span class="mw-page-title-main">Advanced Precision Kill Weapon System</span> American 2.75-inch precision guided rocket

The AGR-20 Advanced Precision Kill Weapon System (APKWS) is a design conversion of Hydra 70 unguided rockets with a laser guidance kit to turn them into precision-guided munitions (PGMs). APKWS is approximately one-third the cost and one-third the weight of the current inventory of laser-guided weapons, has a lower yield more suitable for avoiding collateral damage, and takes one quarter of the time for ordnance personnel to load and unload.

<span class="mw-page-title-main">Elbit Hermes 450</span> Israeli military drone, 1998

The Elbit Hermes 450 is an Israeli medium-sized multi-payload unmanned aerial vehicle (UAV) designed for tactical long endurance missions. It has an endurance of over 20 hours, with a primary mission of reconnaissance, surveillance and communications relay. Payload options include electro-optical/infrared sensors, communications and electronic intelligence, synthetic-aperture radar/ground-moving target indication, electronic warfare, and hyperspectral sensors.

<span class="mw-page-title-main">Aeronautics Defense Systems</span> Israeli defense company

Aeronautics Ltd. is an Israeli company specializing in the manufacturing of Unmanned Aerial Systems for military uses. Since its establishment in 1997, the company has sold its products to more than 20 defense, military and homeland security customers in 15 countries. Its headquarters are in Yavne, Israel.

<span class="mw-page-title-main">AeroVironment RQ-20 Puma</span> Type of aircraft

The AeroVironment RQ-20 Puma is an American unmanned aircraft system which is small, battery powered, and hand-launched. Its primary mission is surveillance and intelligence gathering using an electro-optical and infrared camera. It is produced by AeroVironment.

<span class="mw-page-title-main">Boeing Insitu RQ-21 Blackjack</span> Unmanned air vehicle by Boeing Insitu

The Boeing Insitu RQ-21 Blackjack, company name Integrator, is an American unmanned air vehicle designed and built by Boeing Insitu to meet a United States Navy requirement for a small tactical unmanned air system (STUAS). It is a twin-boom, single-engine monoplane, designed as a supplement to the Boeing Scan Eagle. The Integrator weighs 61 kg (134 lb) and uses the same launcher and recovery system as the Scan Eagle.

The GIDS Uqab is a tactical unmanned reconnaissance aerial vehicle built and developed by the Global Industrial Defence Solutions (GIDS) for the joint drone program of the Pakistan Navy and Pakistan Army. The Uqab is a tactical system which can be used for damage assessment, reconnaissance operations, artillery fire corrections, and can perform other variety of security and military operations.

<span class="mw-page-title-main">Delivery drone</span> Unmanned aerial vehicle (UAV) used to transport packages, food or other goods

A delivery drone is a unmanned aerial vehicle (UAV) designed to transport items such as packages, medicines, foods, postal mails, and other light goods. Large corporations like Amazon, DHL and FedEx have started to use drone delivery services. Drones were used effectively in the fight against COVID-19, delivering millions of vaccines and medical supplies across the globe. Drone deliveries are highly efficient, significantly speeding up delivery times and avoiding challenges traditional delivery vehicles may encounter. Given their life-saving potential use cases for medical supplies in particular have become the most widely-tested type of drone delivery, with trials and pilot projects in dozens of countries such as Australia, Canada, Botswana, Ghana, Uganda, the UK, the US among others.

Unmanned aircraft system simulation focuses on training pilots to control an unmanned aircraft or its payload from a control station. Flight simulation involves a device that artificially re-creates aircraft flight and the environment in which it flies for pilot training, design, or other purposes. It includes replicating the equations that govern how aircraft fly, how they react to applications of flight controls, the effects of other aircraft systems, and how the aircraft reacts to external factors such as air density, turbulence, wind shear, cloud, precipitation, etc.

<span class="mw-page-title-main">Malloy Hoverbike</span>

The Malloy Hoverbike is a single-seater turbo-fan powered, vertical take-off and landing (VTOL) quadcopter developed in 2006 by New Zealand inventor Chris Malloy. The hoverbike has two forward and two aft-mounted vertical propellers each enclosed in a hoop nacelle. The nacelles feature steerable blades beneath which control the direction of flight. Each propeller pair has partial overlap and when not in use they can be folded over each other to further reduce the parking footprint and make packing and transportation easier.

<span class="mw-page-title-main">Loitering munition</span> Type of guided unmanned aerial vehicle

A loitering munition, also known as a suicide drone, kamikaze drone, or exploding drone, is a kind of aerial weapon with a built-in warhead that is typically designed to loiter around a target area until a target is located, then attack the target by crashing into it. Loitering munitions enable faster reaction times against hidden targets that emerge for short periods without placing high-value platforms near the target area and also allow more selective targeting as the attack can be changed mid-flight or aborted.

<span class="mw-page-title-main">Raytheon Coyote</span> Type of aircraft

The Raytheon Coyote is a small, expendable, unmanned aircraft system built by the Raytheon Company, with the capability of operating in autonomous swarms. It is launched from a sonobuoy canister with the wings deploying in early flight phase.

<span class="mw-page-title-main">General Atomics Mojave</span> Unmanned combat aerial vehicle

The General Atomics Mojave is an unmanned aerial vehicle (UAV) capable of short takeoff and landing (STOL), being developed by General Atomics Aeronautical Systems. First unveiled on December 9, 2021, General Atomics states that it is to fulfill the roles of reconnaissance, close air support, and armed overwatch.

References

  1. "Malloy Aeronautics Limited". Companies House. Retrieved 2 March 2024.
  2. "Malloy Aeronautics Ltd". LinkedIn. Retrieved 3 March 2024.
  3. "Contact Us". Malloy Aeronautics. Retrieved 19 March 2024.
  4. Chuter, Andrew (2 February 2024). "BAE Systems buys drone-maker Malloy Aeronautics" . Retrieved 2 March 2024.
  5. "T-650 Heavy Lift Electric UAS Concept Vehicle". BAE Systems . Retrieved 5 March 2024.
  6. 1 2 "Malloy Aeronautics T400 (production aircraft)". Electric VTOL News. Retrieved 5 March 2024.
  7. "SURVICE Press Release On BAE Systems' Acquisition Of Malloy Aeronautics". SURVICE Engineering. 2 February 2024. Retrieved 5 March 2024.
  8. "T80 TRV80". Malloy Aeronautics. Retrieved 4 March 2024.
  9. "T150 TRV150". Malloy Aeronautics. Retrieved 5 March 2024.
  10. 1 2 "T-600 electric uncrewed demonstrator aircraft achieves significant milestone at NATO exercise". BAE Systems . 27 September 2023. Retrieved 12 March 2024.
  11. "T-650 Heavy Lift Electric UAS Concept Vehicle". BAE Systems. Retrieved 12 March 2024.
  12. "DSEI 2021: BAE Systems and Malloy Aeronautics unveil T-650 all-electric UAS". Janes Information Services . 16 September 2021. Retrieved 12 March 2024.
  13. "BAE Systems and Malloy Aeronautics reveal T-650 drone with three Brimstone missiles". gagadget. 21 September 2022. Retrieved 14 March 2024.
  14. Hoyle, Craig (24 May 2024). "BAE-owned Malloy eyes booming demand for cargo drones". FlightGlobal . Retrieved 24 May 2024.
  15. "U.S. Defense Department to develop UK hoverbike". Reuters . 22 June 2015. Retrieved 12 March 2024.
  16. 1 2 "US Army Develops New Unmanned Joint Tactical Aerial Resupply Vehicle (JTARV)". UAS Weekly. 14 September 2016. Retrieved 12 March 2024.
  17. "Army flies 'hoverbike' prototype". US Army . 18 January 2017. Retrieved 12 March 2024.
  18. Lavars, Nick (18 January 2017). "US Army's hoverbike takes flight". New Atlas. Retrieved 12 March 2024.
  19. "SURVICE Employs Tactical Resupply Vehicle Supporting Marines". SURVICE Engineering. 10 July 2018. Retrieved 5 March 2024.
  20. "DoN completes prize challenge for tactical resupply UAS challenge". NAVAIR. 10 February 2020. Retrieved 12 March 2024.
  21. "USNS Burlington Continues Navy's Fleet Experimentation Program". DVIDS. 18 October 2022. Retrieved 5 March 2024.
  22. "SURVICE-Malloy Awarded US Navy Contract to Produce Unmanned TRV Aircraft". Defense Advancement. 19 April 2023. Retrieved 12 March 2024.
  23. "Marine Corps orders 28 unmanned quadcopter aircraft for battlefield resupply in $11 million contract award". Military Aerospace. 13 December 2023. Retrieved 5 March 2024.
  24. "Tactical Resupply UAS ready for the fleet". Naval Air Systems. 1 November 2023. Retrieved 5 March 2024.
  25. 1 2 "Drone swarms support Commando Forces trials in a first for the UK's armed forces". Royal Marines. 17 July 2021. Retrieved 14 March 2024.
  26. "Going the last mile for autonomous resupply". Qinetiq. 19 July 2018. Retrieved 17 March 2024.
  27. "Autonomy for tomorrow's world". GOV.UK. 19 July 2018. Retrieved 17 March 2024.
  28. "Royal Navy on the edge of tomorrow after Cyprus experiments". Royal Navy. 5 November 2020. Retrieved 14 March 2024.
  29. "Minerva – Integration and Facilitation". GOV.UK . Retrieved 14 March 2024.
  30. "Royal Navy continues trials of heavy-lift drone". Royal Navy. 19 June 2020. Retrieved 14 March 2024.
  31. "Royal Navy Shows Commitment To Drone Technology For Future Operations". Navy News. 1 August 2020. Retrieved 14 March 2024.
  32. "Royal Navy tests heavy-lift drones to supply aircraft carriers". New Atlas. 11 April 2022. Retrieved 17 March 2024.
  33. "Royal Navy looks to expand use of drones after setting challenge". Royal Navy. 19 November 2021. Retrieved 14 March 2024.
  34. "Heavy Lift Challenge: Putting Uncrewed Aircraft Systems to the Test". DE&S. 1 April 2022. Retrieved 14 March 2024.
  35. "British Army puts future tech to the test in Army Warfighting Experiment". BFBS . 25 November 2022. Retrieved 14 March 2024.
  36. 1 2 "Royal Marines, Japan acquires T-150 UAVs from Malloy Aeronautics". Janes Information Services . 23 February 2024. Retrieved 5 March 2024.
  37. "UK to deliver British-made Malloy T150 quadcopter cargo drones to Ukraine". Army Recognition. 8 May 2022. Retrieved 4 March 2024.
  38. "Ukraine: Military Equipment". Parliament. Retrieved 14 March 2024.
  39. "Russia claims it shot down UK-made drone near Ukrainian border". RBC Ukraine. 31 May 2023. Retrieved 4 March 2024.
  40. "Ørsted uses giant drones to increase efficiency and safety in industry world first". Ørsted. 30 October 2023. Retrieved 17 March 2024.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.