Airbus Zephyr: Difference between revisions
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| type = [[ |
| type = [[Atmospheric satellite|high-altitude platform station]] |
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| national origin = United Kingdom |
| national origin = United Kingdom |
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| manufacturer = |
| manufacturer = [[Airbus Defence and Space]] |
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| design group = initially [[Qinetiq |
| design group = initially [[Qinetiq]] |
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| designer = <!--Only appropriate for designers, not project leaders --> |
| designer = <!--Only appropriate for designers, not project leaders --> |
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| first flight = December 2005<ref>{{cite news |url= https://www.flightglobal.com/energetic-qinetiq/68321.article |title= Energetic Qinetiq |date= 11 July 2006 |author= Craig Hoyle |work= flightglobal}}</ref> |
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| introduction = 2024 (planned)<ref name=Flight6jan2023/> |
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The '''Zephyr''' is a series of [[Atmospheric satellite|high-altitude platform station]] aircraft produced by [[Airbus]]. <!--Development--> They were designed originally by [[QinetiQ]], a commercial offshoot of the [[UK Ministry of Defence]].<!--BBC24jun2003--> In July 2010, the Zephyr 7 flew for 14 days. In March 2013, the project was sold to [[Airbus Defence and Space]]. In the summer of 2022, the Zephyr 8/S flew for 64 days. |
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The '''Airbus Zephyr''' is a series of lightweight [[solar-powered]] [[unmanned aerial vehicle]]s (UAV). The latest model is a [[Atmospheric satellite|high-altitude platform station]] capable of flying at {{Convert|70,000|ft}} for months at a time without fueling. It has a wingspan of {{Convert|25|m}} and weighs {{Convert|75|kg}}.<ref name=nextbigfuture23Oct2021>{{Cite news |last= Wang |first= Brian |date= 23 October 2021 |title= Airbus Solar Powered Aircraft Can Fly for 18 Days And Replace 250 Cell Towers |url= https://www.nextbigfuture.com/2021/10/173564.html |website= [[NextBigFuture.com]] }}</ref>{{self-published-inline|date=January 2023}} |
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<!--Design--> |
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The [[unmanned aerial vehicle]]s are powered by [[solar cell]]s, recharging [[Electric battery|batteries]] in daylight to stay aloft at night. The latest Zephyr 8/S weighs {{cvt|60|kg}}, has a wingspan of {{cvt|25|m}}, can reach {{cvt|76,100|ft|order=flip}} and can lift a {{cvt|5|kg}} payload for months. They can be used for [[Cellular network|mobile phone coverage]], [[environmental monitoring]], military [[reconnaissance]] or as a [[Radio repeater|communications relay]]. |
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==Development== |
==Development== |
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=== Zephyr 3 === |
=== Zephyr 3 === |
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In 2003, [[QinetiQ]], a commercial offshoot of the [[UK Ministry of Defence]], was |
In 2003, [[QinetiQ]], a commercial offshoot of the [[UK Ministry of Defence]], was planning to fly its Zephyr 3 up to 40 km at {{cvt|70|m/s|km/h kn}}, after being released from a [[high-altitude balloon]] at 9 km, besting the [[NASA Helios]] which had reached 29 km.<ref name=BBC24jun2003/> It was envisionned as an alternative to [[space satellite]]s, stationed permanently in the [[stratosphere]] for [[environmental monitoring]], [[Cellular network|mobile phone coverage]] or [[military]] applications.<ref name=BBC24jun2003>{{Cite news |last= Amos |first= Jonathan |title= Strato-plane looks forward |work= BBC News |date= 24 June 2003 |url= http://news.bbc.co.uk/1/hi/sci/tech/3016082.stm }}</ref> The [[QinetiQ 1]] balloon altitude record attempt failed in 2003.<ref name=Flight22feb2005/> |
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It was envisionned as an alternative to [[space satellite]]s, stationed permanently in the [[stratosphere]] for [[environmental monitoring]], [[Cellular network|mobile phone coverage]] or [[military]] applications.<ref name=BBC24jun2003>{{Cite news |last= Amos |first= Jonathan |title= Strato-plane looks forward |work= BBC News |date= 24 June 2003 |url= http://news.bbc.co.uk/1/hi/sci/tech/3016082.stm }}</ref> |
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The [[QinetiQ 1]] balloon altitude record attempt failed in 2003.<ref name=Flight22feb2005/> |
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In February 2005, Qinetiq was preparing a demonstration above 30, |
In February 2005, Qinetiq was preparing a demonstration above 30,000 ft for the UK Ministry of Defence at the [[Woomera Test Range]] in Australia, for [[reconnaissance]] or as a [[Radio repeater|communications relay]].<ref name=Flight22feb2005>{{cite news |url= https://www.flightglobal.com/uks-zephyr-uav-to-be-tested-for-military-role/59002.article |title= UK's Zephyr UAV to be tested for military role |date= 22 February 2005 |work= Flight International |author= Craig Hoyle }}</ref> |
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=== Zephyr 6 === |
=== Zephyr 6 === |
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=== Zephyr 7 === |
=== Zephyr 7 === |
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On 23 July 2010, the Zephyr 7 took the [[Fédération Aéronautique Internationale|FAI]]- |
On 23 July 2010, the Zephyr 7 took the [[Fédération Aéronautique Internationale|FAI]]-sanctioned [[Flight endurance record|duration record]] after a 336 hours (14 days), 22 min and 8 s flight,<ref>{{cite web |url= https://www.fai.org/record/16052 |title=FAI Record ID No. 16052 |date=16 October 2017 |quote= Absolute Record of class U (Experimental / New Technologies) for Duration |publisher=[[Fédération Aéronautique Internationale|FAI]] }}</ref> reaching {{cvt|21,562|m}}.<ref>{{cite web |url= https://www.fai.org/record/18683 |title=FAI Record ID No. 18683 |date=29 August 2018 |quote= Record of class U (Experimental / New Technologies) for True altitude |publisher=[[Fédération Aéronautique Internationale|FAI]] }}</ref> It exceeded the nine days (216 hours) of the 1986 round-the-world flight of the [[Rutan Voyager]].<ref>{{Cite news | last = Amos | first = Jonathan | title ='Eternal plane' returns to Earth |work= BBC News | date = 23 July 2010 | url =https://www.bbc.co.uk/news/science-environment-10733998}}</ref> |
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In March 2013, the project was sold to [[EADS Astrium]] (now [[Airbus Defence and Space]]).<ref>{{cite press release |url=http://www.astrium.eads.net/en/news2/first-flight-of-astrium-s-zephyr-solar-haps.html |title=First flight of Astrium's Zephyr solar HAPS |publisher=[[Airbus]] |date= 25 September 2013 |url-status=dead |archive-url=https://web.archive.org/web/20131005205329/http://www.astrium.eads.net/en/news2/first-flight-of-astrium-s-zephyr-solar-haps.html |archive-date=5 October 2013}}</ref> |
In March 2013, the project was sold to [[EADS Astrium]] (now [[Airbus Defence and Space]]).<ref>{{cite press release |url=http://www.astrium.eads.net/en/news2/first-flight-of-astrium-s-zephyr-solar-haps.html |title=First flight of Astrium's Zephyr solar HAPS |publisher=[[Airbus]] |date= 25 September 2013 |url-status=dead |archive-url=https://web.archive.org/web/20131005205329/http://www.astrium.eads.net/en/news2/first-flight-of-astrium-s-zephyr-solar-haps.html |archive-date=5 October 2013}}</ref> |
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In 2014 it flew for 11 days in winter,<ref>{{cite news | url=https://www.telegraph.co.uk/finance/newsbysector/transport/11064789/Fly-11-days-non-stop-Now-thats-long-haul.html | |
In 2014 it flew for 11 days in the short days of winter whilst carrying a small payload for the British Ministry of Defence,<ref>{{cite news | url=https://www.telegraph.co.uk/finance/newsbysector/transport/11064789/Fly-11-days-non-stop-Now-thats-long-haul.html |newspaper= [[Daily Telegraph]] |title= Fly 11 days non-stop? Now that's long-haul | first= Alan | last= Tovey | date=31 August 2014}}</ref> and later near civilian airspace.<ref>{{cite news |author= Woodrow Bellamy III |url= https://www.aviationtoday.com/2014/10/01/airbus-zephyr-proves-value-for-civil-operations-in-middle-east/ |title= Airbus Zephyr Proves Value For Civil Operations in Middle East |work= Avionics Today |publisher= Access Intelligence LLC |date= 1 October 2014}}</ref> |
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=== Zephyr 8/S === |
=== Zephyr 8/S === |
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By October 2021, it had flown 2,435 hours.<ref name=AeroTest15oct2021>{{cite news |last1=Sampson |first1=Ben |title= Airbus Zephyr breaks more aviation records during flight testing |url= https://www.aerospacetestinginternational.com/news/flight-testing/airbus-zephyr-breaks-more-aviation-records-during-flight-testing.html |website=Aerospace Testing International |date= 15 October 2021}}</ref> |
By October 2021, it had flown 2,435 hours.<ref name=AeroTest15oct2021>{{cite news |last1=Sampson |first1=Ben |title= Airbus Zephyr breaks more aviation records during flight testing |url= https://www.aerospacetestinginternational.com/news/flight-testing/airbus-zephyr-breaks-more-aviation-records-during-flight-testing.html |website=Aerospace Testing International |date= 15 October 2021}}</ref> |
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On 15 June 2022, the Zephyr S took off in [[Arizona]], venturing for the first time into international airspace and over water.<ref name=defensenews22july22>{{Cite news |last=Buchaniec |first=Catherine |date=2022-07-22 |title=Up, up and away: |
On 15 June 2022, the Zephyr S took off in [[Arizona]], venturing for the first time into international airspace and over water.<ref name=defensenews22july22>{{Cite news |last=Buchaniec |first=Catherine |date=2022-07-22 |title=Up, up and away: Airbus' Zephyr drone breaks flight record high above Arizona |url=https://www.defensenews.com/unmanned/2022/07/22/up-up-and-away-airbus-zephyr-drone-breaks-flight-record-high-above-arizona/ |website=Defense News }}</ref> On 19 August, the plane was lost over the Arizona desert after a flight time of 64 days.{{cn|date=June 2024}} It covered 56,000 km over the southern United States, the Gulf of Mexico, and South America.<ref>{{cite news |url= https://newatlas.com/aircraft/zephyr-8-mission-ends-abruptly-record-breaking-endurance-flight/ |title= Unexpected end to Zephyr 8's record-smashing 64-day endurance flight |work= New Atlas |date= 24 August 2022}}</ref> |
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The aircraft was lost when one engine component (redesigned since) failed in an unusual high-altitude storm turbulence at |
The aircraft was lost when one engine component (redesigned since) failed in an unusual high-altitude storm turbulence at 17 km.<ref name=Flight6jan2023/> |
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By early 2023, Airbus planned to launch operations from the end of 2024 with around 18 aircraft.<ref name=Flight6jan2023/> |
By early 2023, Airbus planned to launch operations from the end of 2024 with around 18 aircraft.<ref name=Flight6jan2023/> |
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By 2034, a 1,000 aircraft constellation could cover 2.9 billion people, and would provide emergency 4G/5G following natural disasters.<ref name=Flight6jan2023/> |
By 2034, a 1,000 aircraft constellation could cover 2.9 billion people, and would provide emergency 4G/5G following natural disasters.<ref name=Flight6jan2023/> |
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The larger Zephyr variant, with twice the payload capacity, is expected for 2026.<ref name=Flight6jan2023>{{cite news |url= https://www.flightglobal.com/defence/airbus-readies-high-flying-zephyr-for-2024-service-launch/151546.article |title= Airbus readies high-flying Zephyr for 2024 service launch |author= Craig Hoyle |date= 6 January 2023 |work= Flightglobal}}</ref> |
The larger Zephyr variant, with twice the payload capacity, is expected for 2026.<ref name=Flight6jan2023>{{cite news |url= https://www.flightglobal.com/defence/airbus-readies-high-flying-zephyr-for-2024-service-launch/151546.article |title= Airbus readies high-flying Zephyr for 2024 service launch |author= Craig Hoyle |date= 6 January 2023 |work= Flightglobal}}</ref> |
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=== Commercial services === |
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In January 2023, the Aalto HAPS company was set up by Airbus to sell its mobile connectivity and earth observation services.<ref>{{cite news |url= https://www.aerospacetestinginternational.com/news/drones-air-taxis/airbus-brands-stratospheric-drone-zephyr-business-as-aalto.html |title= Airbus brands stratospheric drone business as Aalto |author= Ben Sampson |date= 23 January 2023 |work= Aerospace testing international}}</ref> |
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In June 2024, a Japanese consortium led by [[NTT Docomo]] and [[Space Compass]] committed to invest USD$100m in AALTO to commercialise connectivity HAPS services in Asia, targeting a 2026 introduction.<ref>{{cite press release |url= https://www.aaltohaps.com/news/ntt-docomo-and-space-compass-partners-with-airbus-on-haps-committing-to-a-usd-100-million-investment-in-aalto |date= 3 June 2024 |title= NTT DOCOMO and Space Compass partners with Airbus on HAPS, committing to a USD$100 million investment in AALTO |publisher= AALTO}}</ref> |
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==Design== |
==Design== |
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=== Zephyr 6 === |
=== Zephyr 6 === |
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The [[carbon fiber]] Zephyr 6 has a {{cvt|18|m}} span and weighs |
The [[carbon fiber]] Zephyr 6 has a {{cvt|18|m}} span and weighs 30–34 kg (70 lb) for a 2 kg (4.5 lb) payload.<ref name=BBC24aug2008/> |
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[[Amorphous silicon]] solar cells from [[Unisolar]] recharge [[lithium-sulphur batteries]] from [[Sion Corporation]] with twice the energy density of the best alternative, [[lithium polymer batteries]].<ref name=BBC24aug2008/> |
[[Amorphous silicon]] solar cells from [[Unisolar]] recharge [[lithium-sulphur batteries]] from [[Sion Corporation]] with twice the energy density of the best alternative, [[lithium polymer batteries]].<ref name=BBC24aug2008/> |
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Launched by hand, it can reach |
Launched by hand, it can reach 18 km (60,000 ft).<ref name=BBC24aug2008/> |
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The first version had a battery capacity of 3 kW·h, driving two propellers.<ref>{{cite web |last=Bush |first=Steve |title=Inside Qinetiq's Zephyr solar powered plane |url=https://www.electronicsweekly.com/news/research-news/process-rd/inside-qinetiqs-zephyr-solar-powered-plane-2007-09/ |work=[[Electronics weekly]] |date=28 September 2007}}</ref> |
The first version had a battery capacity of 3 kW·h, driving two propellers.<ref>{{cite web |last=Bush |first=Steve |title=Inside Qinetiq's Zephyr solar powered plane |url=https://www.electronicsweekly.com/news/research-news/process-rd/inside-qinetiqs-zephyr-solar-powered-plane-2007-09/ |work=[[Electronics weekly]] |date=28 September 2007}}</ref> |
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=== Zephyr 7 === |
=== Zephyr 7 === |
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Zephyr 7 was larger, at 53 kg,<ref>{{cite news | url=https://www.bbc.co.uk/news/world-us-canada-10742411 | work=BBC News | title=Wing-to-tail guide to Zephyr, the 'eternal' plane | date=23 July 2010}}</ref> and capable of a maximum altitude between |
Zephyr 7 was larger, at 53 kg,<ref>{{cite news | url=https://www.bbc.co.uk/news/world-us-canada-10742411 | work=BBC News | title=Wing-to-tail guide to Zephyr, the 'eternal' plane | date=23 July 2010}}</ref> and capable of a maximum altitude between 20 and 21 km,<ref>{{Cite web |url=http://www.defensenews.com/story/defense/air-space/isr/2016/02/17/british-mod-acquires-solar-powered-zephyr-uav/80513364/ |title = British MoD Acquires Solar-Powered Zephyr UAV |date = 17 February 2016}}</ref> it required five ground crew to launch, as opposed to three previously for the Zephyr 6.<ref>{{cite news |last=Goodier |first=Rob |title= Solar Plane Aims for New Record: 3 Months Aloft Without a Pilot or Fuel |url= https://www.popularmechanics.com/flight/drones/how-to/a5914/solar-plane-zephyr-uav-record/d |work=[[Popular mechanics]] |date=7 July 2010}}</ref> |
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=== Zephyr 8/S === |
=== Zephyr 8/S === |
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Designed to fly at {{cvt|65,000|ft}} for more than a month, the {{cvt|25|m}} wide Zephyr 8 is 30% lighter and can lift 50% more batteries than the Zephyr 7.<ref name=Airbus18Feb2016>{{cite press release |url= https://www.airbus.com/en/newsroom/press-releases/2016-02-united-kingdom-ministry-of-defence-places-order-for-two-solar |title=United Kingdom Ministry of Defence places order for two solar-powered Airbus Zephyr 8s |publisher=[[Airbus]] |date= 18 February 2016}}</ref> |
Designed to fly at {{cvt|65,000|ft|km|order=flip}} for more than a month, the {{cvt|25|m}} wide Zephyr 8 is 30% lighter and can lift 50% more batteries than the Zephyr 7.<ref name=Airbus18Feb2016>{{cite press release |url= https://www.airbus.com/en/newsroom/press-releases/2016-02-united-kingdom-ministry-of-defence-places-order-for-two-solar |title=United Kingdom Ministry of Defence places order for two solar-powered Airbus Zephyr 8s |publisher=[[Airbus]] |date= 18 February 2016}}</ref> |
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It weighs |
It weighs 60 kg, 40% of which are batteries ({{#expr:60*0.4}} kg), and the 5 kg payload can transmit video with a 50 cm resolution from above 20 km.<ref name=BBC2Feb2016/> |
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They should be able to operate year-round between [[40 degrees North]] and [[40th parallel south|South]], while [[winter]] operation gets more difficult at higher [[latitudes]].<ref name=BBC2Feb2016/> |
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It used Amprius [[Lithium-ion battery|lithium-ion batteries]] with [[silicon nanowire]] anodes for a 435 Wh/kg [[specific energy]] up from 300–320 Wh/kg.<ref>{{cite news |url= http://aviationweek.com/future-aerospace/record-breaking-zephyr-s-battery-holds-evtol-potential |title= Record-Breaking Zephyr's Battery Holds eVTOL Potential |date= 13 December 2018 |author= Graham Warwick |work= Aviation Week & Space Technology}}</ref> Solar cells are |
It used Amprius [[Lithium-ion battery|lithium-ion batteries]] with [[silicon nanowire]] anodes for a 435 Wh/kg [[specific energy]] up from 300–320 Wh/kg.<ref>{{cite news |url= http://aviationweek.com/future-aerospace/record-breaking-zephyr-s-battery-holds-evtol-potential |title= Record-Breaking Zephyr's Battery Holds eVTOL Potential |date= 13 December 2018 |author= Graham Warwick |work= Aviation Week & Space Technology}}</ref> Solar cells are high-efficiency, lightweight, and flexible inverted [[Solar_cell_research#Metamorphic_multijunction_solar_cell|metamorphic multi-junction]] epitaxial lift-off [[GaAs]] sheets manufactured by [[MicroLink Devices]], with specific power exceeding 1,500 W/kg and areal powers greater than 350 W/m<sup>2</sup>.<ref>{{Cite press release |author= MicroLink Devices |title= MicroLink Devices Powers Successful Stratospheric Flight of Airbus Defence and Space Zephyr S HAPS Solar Aircraft |url=https://www.prnewswire.com/news-releases/microlink-devices-powers-successful-stratospheric-flight-of-airbus-defence-and-space-zephyr-s-haps-solar-aircraft-300732214.html |date= Oct 17, 2018}}</ref> |
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One Zephyr can replace 250 [[cell phone tower]]s.<ref>{{cite web |url= https://www.airbus.com/en/products-services/defence/uas/uas-solutions/zephyr |title= Zephyr |publisher= Airbus}}</ref> It can be used to perform [[intelligence, surveillance and reconnaissance]] (ISR) with a wide visual payload coverage of 20×30 km (12.4×18.6 mi) and can be equipped with radar, [[LIDAR]] and infrared technologies.<ref name=defensenews22july22/> |
One Zephyr can replace 250 [[cell phone tower]]s.<ref>{{cite web |url= https://www.airbus.com/en/products-services/defence/uas/uas-solutions/zephyr |title= Zephyr |publisher= Airbus}}</ref> It can be used to perform [[intelligence, surveillance and reconnaissance]] (ISR) with a wide visual payload coverage of 20×30 km (12.4×18.6 mi) and can be equipped with radar, [[LIDAR]] and infrared technologies.<ref name=defensenews22july22/> |
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Endurance is targeted for up to |
Endurance is targeted for up to 200–300 days.<ref name=Flight6jan2023/> |
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An 8 |
An 8 kg (17.6 lb) mobile connectivity payload can serve up to 100,000 people on the ground.<ref name=Flight6jan2023/> |
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A 5 |
A 5 kg Airbus-developed [[Opaz optical sensor]] can deliver 18 cm-resolution imagery.<ref name=Flight6jan2023/> |
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==Specifications== |
==Specifications== |
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! Zephyr 4 |
! Zephyr 4 |
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| 12 |
| 12 m (39 ft) || 17 kg (37 lb) ||| 9 140 m (30 000 ft) || 6 h || |
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! Zephyr 5 |
! Zephyr 5 |
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| 16 |
| 16 m (52 ft) || 31 kg (68 lb) || 11 000 m (36 000 ft) || 18 h || |
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|- |
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! Zephyr 6 |
! Zephyr 6 |
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| 18 |
| 18 m (59 ft) || 30 kg (66 lb) || 18 300 m (60 000 ft) || 87 h || 2 kg (4.4 lb) |
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! Zephyr 7 |
! Zephyr 7 |
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| 22,5 |
| 22,5 m (74 ft) || 53 kg (117 lb) || 21 000 m (69 000 ft) || 336 h || 5 kg (11 lb) |
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|- |
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! Zephyr 8/S |
! Zephyr 8/S |
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| 25 |
| 25 m (82 ft) || 62-65 kg (137-143 lb) || {{cvt|76,100|ft|order=flip}}<ref name=AeroTest15oct2021/> || 624 h || 5 kg (11 lb) |
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|- |
|- |
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! Zephyr T |
! Zephyr T |
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| 32 |
| 32 m (105 ft) || 145 kg (320 lb) || || || 20 kg (44 lb) |
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* March 2019, Wyndham, Western Australia<ref name=ATSB28Sep2020>{{cite web |title=In-flight break-up involving Airbus Zephyr unmanned aerial vehicle, near Wyndham Airport, Western Australia, on 28 September 2019 |url=https://www.atsb.gov.au/publications/investigation_reports/2019/aair/ao-2019-056/ |publisher=Australian Transport Safety Bureau |date= 28 Sep 2020}}</ref> |
* March 2019, Wyndham, Western Australia<ref name=ATSB28Sep2020>{{cite web |title=In-flight break-up involving Airbus Zephyr unmanned aerial vehicle, near Wyndham Airport, Western Australia, on 28 September 2019 |url=https://www.atsb.gov.au/publications/investigation_reports/2019/aair/ao-2019-056/ |publisher=Australian Transport Safety Bureau |date= 28 Sep 2020}}</ref> |
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* 28 September 2019, Wyndham, Western Australia, during the first flight after the first incident in March 2019<ref>{{Cite web|url= https://www.9news.com.au/national/news-wa-outback-aviation-incident-linked-to-uk-ministry-of-defence/9419a3a8-532a-4804-921b-8b492b8c068a |title = Outback aviation incident linked to UK Ministry of Defence |work= 9News |date= 12 Apr 2019}}</ref><ref name=ATSB28Sep2020/> |
* 28 September 2019, Wyndham, Western Australia, during the first flight after the first incident in March 2019<ref>{{Cite web|url= https://www.9news.com.au/national/news-wa-outback-aviation-incident-linked-to-uk-ministry-of-defence/9419a3a8-532a-4804-921b-8b492b8c068a |title = Outback aviation incident linked to UK Ministry of Defence |work= 9News |date= 12 Apr 2019}}</ref><ref name=ATSB28Sep2020/> |
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* 19 August 2022, Arizona, just before breaking the record for the longest flight of any aircraft (a total of 64 days) |
* 19 August 2022, Arizona, just before breaking the record for the longest flight of any aircraft (a total of 64 days){{cn|date=June 2024}} |
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==See also== |
==See also== |
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* SoftBank/AeroVironment [[HAPSMobile]] (First flight 11 September 2019) |
* SoftBank/AeroVironment [[HAPSMobile]] (First flight 11 September 2019) |
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* [[BAE Systems PHASA-35]] (First flight 17 February 2020) |
* [[BAE Systems PHASA-35]] (First flight 17 February 2020) |
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* [[Solar-powered aircraft]] |
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== Notes and references == |
== Notes and references == |
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==External links== |
==External links== |
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* {{official website|https://www.airbus.com/defence/ |
* {{official website|https://www.airbus.com/en/products-services/defence/uas/uas-solutions/zephyr}} |
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* {{cite news |url= http://www.aerospacetestinginternational.com/news.php?NewsID=92195 |title= Zephyr S high-altitude persistent drone could achieve 100-day flight during tests |date= 17 July 2018 |magazine= Aerospace Testing International |author= Ben Sampson}} |
* {{cite news |url= http://www.aerospacetestinginternational.com/news.php?NewsID=92195 |title= Zephyr S high-altitude persistent drone could achieve 100-day flight during tests |date= 17 July 2018 |magazine= Aerospace Testing International |author= Ben Sampson}} |
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[[Category:Solar-powered aircraft]] |
[[Category:Solar-powered aircraft]] |
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[[Category:Unmanned military aircraft of the United Kingdom]] |
[[Category:Unmanned military aircraft of the United Kingdom]] |
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[[Category:High-altitude |
[[Category:High-altitude platform stations]] |
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[[Category:Airbus Defence and Space aircraft]] |
[[Category:Airbus Defence and Space aircraft]] |
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Latest revision as of 11:54, 24 November 2024
| Zephyr | |
|---|---|
| |
| An artist's impression of the UAV | |
| Role | high-altitude platform station |
| National origin | United Kingdom |
| Manufacturer | Airbus Defence and Space |
| Design group | initially Qinetiq |
| First flight | December 2005[1] |
| Introduction | 2024 (planned)[2] |
| Status | Under development |
The Zephyr is a series of high-altitude platform station aircraft produced by Airbus. They were designed originally by QinetiQ, a commercial offshoot of the UK Ministry of Defence. In July 2010, the Zephyr 7 flew for 14 days. In March 2013, the project was sold to Airbus Defence and Space. In the summer of 2022, the Zephyr 8/S flew for 64 days.
The unmanned aerial vehicles are powered by solar cells, recharging batteries in daylight to stay aloft at night. The latest Zephyr 8/S weighs 60 kg (130 lb), has a wingspan of 25 m (82 ft), can reach 23,200 m (76,100 ft) and can lift a 5 kg (11 lb) payload for months. They can be used for mobile phone coverage, environmental monitoring, military reconnaissance or as a communications relay.
Development
[edit]Zephyr 3
[edit]In 2003, QinetiQ, a commercial offshoot of the UK Ministry of Defence, was planning to fly its Zephyr 3 up to 40 km at 70 m/s (250 km/h; 140 kn), after being released from a high-altitude balloon at 9 km, besting the NASA Helios which had reached 29 km.[3] It was envisionned as an alternative to space satellites, stationed permanently in the stratosphere for environmental monitoring, mobile phone coverage or military applications.[3] The QinetiQ 1 balloon altitude record attempt failed in 2003.[4]
In February 2005, Qinetiq was preparing a demonstration above 30,000 ft for the UK Ministry of Defence at the Woomera Test Range in Australia, for reconnaissance or as a communications relay.[4]
Zephyr 6
[edit]Between 28 and 31 July 2008, in a demonstration for the US military at its Yuma Proving Ground in Arizona, the Zephyr 6 flew for 82 hours and 37 minutes, an unofficial record as the FAI wasn't involved.[5]
Zephyr 7
[edit]On 23 July 2010, the Zephyr 7 took the FAI-sanctioned duration record after a 336 hours (14 days), 22 min and 8 s flight,[6] reaching 21,562 m (70,741 ft).[7] It exceeded the nine days (216 hours) of the 1986 round-the-world flight of the Rutan Voyager.[8]
In March 2013, the project was sold to EADS Astrium (now Airbus Defence and Space).[9]
In 2014 it flew for 11 days in the short days of winter whilst carrying a small payload for the British Ministry of Defence,[10] and later near civilian airspace.[11]
Zephyr 8/S
[edit]In February 2016, the UK Ministry of Defence purchased two Zephyr 8 planes.[12] In August 2016, a third was purchased.[13]
In 2016, a twin-tailed Zephyr T variant, providing a maritime surveillance and communications capability, was scheduled for flight testing in 2018.[14]
In summer 2018, for its maiden flight from Arizona, the Zephyr S remained aloft for 25 days 23 hours 57 minutes, nearly twice as long as the previous record flight of 14 days set by its predecessor.[15] By October 2021, it had flown 2,435 hours.[16]
On 15 June 2022, the Zephyr S took off in Arizona, venturing for the first time into international airspace and over water.[17] On 19 August, the plane was lost over the Arizona desert after a flight time of 64 days.[citation needed] It covered 56,000 km over the southern United States, the Gulf of Mexico, and South America.[18]
The aircraft was lost when one engine component (redesigned since) failed in an unusual high-altitude storm turbulence at 17 km.[2] By early 2023, Airbus planned to launch operations from the end of 2024 with around 18 aircraft.[2] By 2034, a 1,000 aircraft constellation could cover 2.9 billion people, and would provide emergency 4G/5G following natural disasters.[2] The larger Zephyr variant, with twice the payload capacity, is expected for 2026.[2]
Commercial services
[edit]In January 2023, the Aalto HAPS company was set up by Airbus to sell its mobile connectivity and earth observation services.[19] In June 2024, a Japanese consortium led by NTT Docomo and Space Compass committed to invest USD$100m in AALTO to commercialise connectivity HAPS services in Asia, targeting a 2026 introduction.[20]
Design
[edit]Zephyr 3
[edit]The 12 m (39 ft) wide aircraft had a carbon composite frame to weigh 12 kg (26 lb), and 1 kW of solar cells powering five motors.[3]
Zephyr 6
[edit]The carbon fiber Zephyr 6 has a 18 m (59 ft) span and weighs 30–34 kg (70 lb) for a 2 kg (4.5 lb) payload.[5] Amorphous silicon solar cells from Unisolar recharge lithium-sulphur batteries from Sion Corporation with twice the energy density of the best alternative, lithium polymer batteries.[5] Launched by hand, it can reach 18 km (60,000 ft).[5] The first version had a battery capacity of 3 kW·h, driving two propellers.[21]
Zephyr 7
[edit]Zephyr 7 was larger, at 53 kg,[22] and capable of a maximum altitude between 20 and 21 km,[23] it required five ground crew to launch, as opposed to three previously for the Zephyr 6.[24]
Zephyr 8/S
[edit]Designed to fly at 20 km (65,000 ft) for more than a month, the 25 m (82 ft) wide Zephyr 8 is 30% lighter and can lift 50% more batteries than the Zephyr 7.[25] It weighs 60 kg, 40% of which are batteries (24 kg), and the 5 kg payload can transmit video with a 50 cm resolution from above 20 km.[12] They should be able to operate year-round between 40 degrees North and South, while winter operation gets more difficult at higher latitudes.[12]
It used Amprius lithium-ion batteries with silicon nanowire anodes for a 435 Wh/kg specific energy up from 300–320 Wh/kg.[26] Solar cells are high-efficiency, lightweight, and flexible inverted metamorphic multi-junction epitaxial lift-off GaAs sheets manufactured by MicroLink Devices, with specific power exceeding 1,500 W/kg and areal powers greater than 350 W/m2.[27]
One Zephyr can replace 250 cell phone towers.[28] It can be used to perform intelligence, surveillance and reconnaissance (ISR) with a wide visual payload coverage of 20×30 km (12.4×18.6 mi) and can be equipped with radar, LIDAR and infrared technologies.[17]
Endurance is targeted for up to 200–300 days.[2] An 8 kg (17.6 lb) mobile connectivity payload can serve up to 100,000 people on the ground.[2] A 5 kg Airbus-developed Opaz optical sensor can deliver 18 cm-resolution imagery.[2]
Specifications
[edit]| Model | Span | Weight | Ceiling | Endurance | Payload |
|---|---|---|---|---|---|
| Zephyr 4 | 12 m (39 ft) | 17 kg (37 lb) | 9 140 m (30 000 ft) | 6 h | |
| Zephyr 5 | 16 m (52 ft) | 31 kg (68 lb) | 11 000 m (36 000 ft) | 18 h | |
| Zephyr 6 | 18 m (59 ft) | 30 kg (66 lb) | 18 300 m (60 000 ft) | 87 h | 2 kg (4.4 lb) |
| Zephyr 7 | 22,5 m (74 ft) | 53 kg (117 lb) | 21 000 m (69 000 ft) | 336 h | 5 kg (11 lb) |
| Zephyr 8/S | 25 m (82 ft) | 62-65 kg (137-143 lb) | 23,200 m (76,100 ft)[16] | 624 h | 5 kg (11 lb) |
| Zephyr T | 32 m (105 ft) | 145 kg (320 lb) | 20 kg (44 lb) |
Accidents and incidents
[edit]As of August 2022[update], three hull losses have been reported:
- March 2019, Wyndham, Western Australia[30]
- 28 September 2019, Wyndham, Western Australia, during the first flight after the first incident in March 2019[31][30]
- 19 August 2022, Arizona, just before breaking the record for the longest flight of any aircraft (a total of 64 days)[citation needed]
See also
[edit]
- NASA Pathfinder (First flew in June 1983)
- NASA Centurion (First flight 10 November 1998)
- NASA/AeroVironment Helios Prototype (First flight 8 September 1999)
- Facebook Aquila (First flight 28 June 2016)
- SoftBank/AeroVironment HAPSMobile (First flight 11 September 2019)
- BAE Systems PHASA-35 (First flight 17 February 2020)
- Solar-powered aircraft
Notes and references
[edit]- ^ Craig Hoyle (11 July 2006). "Energetic Qinetiq". flightglobal.
- ^ a b c d e f g h Craig Hoyle (6 January 2023). "Airbus readies high-flying Zephyr for 2024 service launch". Flightglobal.
- ^ a b c Amos, Jonathan (24 June 2003). "Strato-plane looks forward". BBC News.
- ^ a b Craig Hoyle (22 February 2005). "UK's Zephyr UAV to be tested for military role". Flight International.
- ^ a b c d Amos, Jonathan (24 August 2008). "Solar plane makes record flight". BBC News.
- ^ "FAI Record ID No. 16052". FAI. 16 October 2017.
Absolute Record of class U (Experimental / New Technologies) for Duration
- ^ "FAI Record ID No. 18683". FAI. 29 August 2018.
Record of class U (Experimental / New Technologies) for True altitude
- ^ Amos, Jonathan (23 July 2010). "'Eternal plane' returns to Earth". BBC News.
- ^ "First flight of Astrium's Zephyr solar HAPS" (Press release). Airbus. 25 September 2013. Archived from the original on 5 October 2013.
- ^ Tovey, Alan (31 August 2014). "Fly 11 days non-stop? Now that's long-haul". Daily Telegraph.
- ^ Woodrow Bellamy III (1 October 2014). "Airbus Zephyr Proves Value For Civil Operations in Middle East". Avionics Today. Access Intelligence LLC.
- ^ a b c "MoD to buy high-flying solar planes". BBC. 2 February 2016.
- ^ "MOD buys third record-breaking UAV" (Press release). UK MOD. 17 August 2016.
- ^ "Farnborough 2016: Airbus releases Zephyr T details, outlines CONOPS for systems". Janes. 14 July 2016. Archived from the original on 25 August 2016.
- ^ Dan Thisdell (8 August 2018). "Airbus sets flight endurance record with Zephyr UAV". Flightglobal.
- ^ a b Sampson, Ben (15 October 2021). "Airbus Zephyr breaks more aviation records during flight testing". Aerospace Testing International.
- ^ a b Buchaniec, Catherine (22 July 2022). "Up, up and away: Airbus' Zephyr drone breaks flight record high above Arizona". Defense News.
- ^ "Unexpected end to Zephyr 8's record-smashing 64-day endurance flight". New Atlas. 24 August 2022.
- ^ Ben Sampson (23 January 2023). "Airbus brands stratospheric drone business as Aalto". Aerospace testing international.
- ^ "NTT DOCOMO and Space Compass partners with Airbus on HAPS, committing to a USD$100 million investment in AALTO" (Press release). AALTO. 3 June 2024.
- ^ Bush, Steve (28 September 2007). "Inside Qinetiq's Zephyr solar powered plane". Electronics weekly.
- ^ "Wing-to-tail guide to Zephyr, the 'eternal' plane". BBC News. 23 July 2010.
- ^ "British MoD Acquires Solar-Powered Zephyr UAV". 17 February 2016.
- ^ Goodier, Rob (7 July 2010). "Solar Plane Aims for New Record: 3 Months Aloft Without a Pilot or Fuel". Popular mechanics.
- ^ "United Kingdom Ministry of Defence places order for two solar-powered Airbus Zephyr 8s" (Press release). Airbus. 18 February 2016.
- ^ Graham Warwick (13 December 2018). "Record-Breaking Zephyr's Battery Holds eVTOL Potential". Aviation Week & Space Technology.
- ^ MicroLink Devices (17 October 2018). "MicroLink Devices Powers Successful Stratospheric Flight of Airbus Defence and Space Zephyr S HAPS Solar Aircraft" (Press release).
- ^ "Zephyr". Airbus.
- ^ "Airbus-QinetiQ Zephyr". AviationsMilitaires.net.
- ^ a b "In-flight break-up involving Airbus Zephyr unmanned aerial vehicle, near Wyndham Airport, Western Australia, on 28 September 2019". Australian Transport Safety Bureau. 28 September 2020.
- ^ "Outback aviation incident linked to UK Ministry of Defence". 9News. 12 April 2019.
External links
[edit]- Official website
- Ben Sampson (17 July 2018). "Zephyr S high-altitude persistent drone could achieve 100-day flight during tests". Aerospace Testing International.
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