Boom Overture

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Overture
Boom Technology airliner concept.jpg
Role Supersonic airliner
National origin United States
Manufacturer Boom Technology
First flight 2026 (planned)
Introduction 2029 (planned)
Status Under development

The Boom Overture is a proposed Mach 2.2 (1,300 kn; 2,300 km/h), 55-passenger supersonic airliner with 4,500 nmi (8,300 km) of range, which is planned to be introduced in 2029 by Boom Technology. The company claims that with 500 viable routes, there could be a market for 1,000 supersonic airliners with business class fares. It had gathered 76 commitments by December 2017. It is planned to have a delta wing configuration (similar to the Concorde). It would be powered by three dry (non-afterburning) 15,000–20,000 lbf (67–89 kN) turbofans.

Market[]

The company says five hundred daily routes would be viable: at Mach 2.2 over water, New York to London would be 3 hours and 30 minutes apart; Newark to Frankfurt would be 4 hours apart. 3 hours and 15 minutes apart; Miami and Santiago, Chile would be 3 hours and 48 minutes apart. With 4,500 nmi (8,300 km) range, transpacific flights would require a refueling stop: San Francisco and Tokyo would be 6 hours apart.[1][2] There could be a market for 1,000 supersonic airliners by 2035.[2] Boom targets a $200 million price, not discounted and excluding options and interior, in 2016 dollars. The company claims that operational costs per premium available seat mile will be lower than subsonic wide-body aircraft.[3] The Boom factory will be sized to assemble up to 100 aircraft per year for a 1,000- to 2,000-aircraft potential market over 10 years.[4]

Boom targets $5,000 fares for a New York-to-London round-trip, while the same on Concorde cost $20,000 adjusted for inflation; it was its only profitable route.[5] The same fuel burn enables fares similar to subsonic business class among other factors.[4] For long-range routes like San Francisco–Tokyo and Los Angeles–Sydney, 30 lie-flat first-class seats could be proposed alongside 15 business-class seats.[6]

In March 2016, Richard Branson confirmed that Virgin Group holds options for 10 aircraft, and Virgin Galactic's subsidiary The Spaceship Company will aid in manufacturing and testing the jet.[7] An unnamed European carrier also holds options for 15 aircraft; the two deals total 5 billion dollars.[8] At the 2017 Paris Air Show, 51 commitments were added for a backlog of 76 with significant deposits.[6] In December 2017, Japan Airlines was confirmed to have pre-ordered up to 20 jets among the commitments to 76 from five airlines.[9] Boom CEO Blake Scholl thinks 2,000 supersonic jets will connect 500 cities and promises £2,000 for London to New York one-way, comparable with existing subsonic business class.[10]

On June 3, 2021, United Airlines announced they had signed an agreement to purchase 15 Overture aircraft with an additional 35 options, expecting to start passenger flights by 2029.[11][12]

Development[]

In March 2016, the company had concept drawings and wooden mockups of the aircraft.[13] In October 2016, the design was stretched to 155 ft (47 m) to seat up to 50 passengers with ten extra seats, its wingspan marginally increased, and a third engine was added to enable ETOPS with up to a 180 minutes diversion time.[14] The plane could seat 55 passengers in a higher-density configuration.[15] In 2017, its introduction was scheduled for 2023.[6] By July 2018, it was delayed for 2025.[16] At the time, it had undergone over 1,000 simulated wind tunnel tests.[10]

Boom initially targeted Mach 2.2 cruise speed to fit with transoceanic airline timetables and allow higher utilization, while keeping airport noise to Stage 4, similar to subsonic long-range aircraft.[17] Configuration was intended to be locked in late 2019 to early 2020 for a launch with engine selection, supply chain, production site.[17] Development and certification of the airliner and its engine should cost $6 billion, needing Series C investors. Enough money was raised in the B round to hit key milestones: flying the demonstrator to prove the technology; growing the orderbook to prove the market; taking key suppliers for engines, aerostructures and avionics; and lay out the certification process, with many special conditions but with precedents.[17]

At the June 2019 Paris Air Show, Brett Scholl announced the introduction was delayed from 2023 to the 2025–2027 timeframe, following a two-year test campaign with six aircraft.[18]

In September 2020, the company announced that they have been contracted by the United States Air Force to develop the Overture for possible use as Air Force One.[19]

On October 7, 2020, Boom publicly unveiled its XB-1 demonstrator, which it plans to fly for the first time in 2021 from Mojave Air and Space Port, California. It expects to begin wind tunnel tests for the Overture in 2021, and start construction of a manufacturing facility in 2022, with capacity for 5 to 10 aircraft monthly. The first Overture would be unveiled in 2025, with the aim of achieving type certification by 2029.[20] Flights should be available in 2030, as estimated by Blake Scholl.[21]

Boom currently targets a Mach 1.7 cruise.[22]

Design[]

Its wing configuration is a conventional compound delta for low supersonic drag, designed to be like a 75% scale model of Concorde: no low sonic boom unlike the SAI Quiet Supersonic Transport (QSST), or laminar supersonic flow technology from the Aerion AS2. Due to the low 1.5 wing aspect ratio, low-speed drag is high, and the aircraft requires high thrust at take-off. Boom also needs to address the nose-up attitude on landing.[23] Airframe maintenance costs should be similar to other carbon fiber airliners.[2] It should operate at a quarter of the costs of Concorde by relying on dry engines, composite structures and existing technology.[9] The 55-seat airliner would weigh 77,100 kg (170,000 lb).[5] It should be 170 ft (52 m) long by 60 ft (18 m) wide and could accommodate 45 passengers, including 10 in first class or 55 with a 75 in (190 cm) seat pitch.[24] In 2021, Boom presents a longer length of 205 ft (62 m) with a capacity of 65 to 88.[22] Changes to maximum take-off weight or required engine thrust are not disclosed.

The FAA and the ICAO are working on a sonic boom standard to allow supersonic flights overland. NASA plans a Low Boom Flight Demonstrator in 2021 to assess public acceptability of a 75 PNLdB boom, lower than Concorde's 105 PNLdB. It should not be louder at takeoff than current airliners like the Boeing 777-300ER.[25] Supersonic jets could be exempted from the FAA takeoff noise regulations, reducing their fuel consumption by 20–30% by using narrower engines optimized for acceleration over limiting noise.[9] In 2017, Honeywell and NASA tested predictive software and cockpit displays showing the sonic booms en route, to minimize its disruption overland.[24]

Engines[]

Boom wants to use moderate-bypass turbofans without afterburners, unlike Concorde's Rolls-Royce/Snecma Olympus. The only available choices are jet fighter engines, which have neither the fuel economy nor the reliability required for commercial aviation. As of November 2016, no engine manufacturer could develop such an engine based on sales of only 10 units. Boom needs to deal with the noise of the high jet speed engine, and the tripled fuel consumption per unit distance and per seat compared with a modern wide-body aircraft.[23] The International Council on Clean Transportation estimated the plane would burn at least three times as much fuel as a subsonic business-class passenger.[26]

The engine is intended to be a modified version of the existing turbofan engine design, although it will come with higher maintenance costs.[2] It was to be selected in 2018, being either a derivative of a commercial engine or a clean-sheet design. It was unlikely a military engine, due to export controls.[4] The 55-seat airliner will be powered by three 15,000–20,000 lbf (67–89 kN) engines without afterburners, with shorter maintenance intervals than subsonic jets.[9] A development of an existing commercial engine core, with a new low-pressure spool, is preferred over a clean-sheet design. Larger-diameter fans have higher cruise thrust requirements for a higher fuel-burn and lower range, but are preferred due to their higher bypass and lower take-off noise.[25]

Intake compression would need a low-pressure core, and derivatives of existing 3–4:1 bypass-ratio turbofans are a compromise between takeoff noise and wave drag, with a good fuel efficiency. Dave Richardson, of Lockheed Martin's Skunk Works, noted that suitable engines with low overall pressure ratio are scarce. Development of 1950s–1960s engines like the GE J79, GE YJ93, GE4, PW J58 or Rolls-Royce Olympus ended when more efficiencies were pursued, and subsequent advances in materials science for much hotter cores are not optimized for long supersonic endurance. The PW JT8D or GE J79 are better suited than current engines, and staggering development costs render new low-bypass-ratio turbofans unlikely.[27]

In July 2020, the company announced that it had entered into an agreement with Rolls-Royce to collaborate on engine development.[28]

Fuel[]

The aircraft is intended to run on one hundred percent Sustainable Aviation Fuel (SAF), in contrast with current commercial aircraft using engines certified to fly with fifty percent SAF.[29]

Specifications[]

Data from Boom[22]

General characteristics

  • Capacity: 65 to 88
  • Length: 205 ft (62 m)
  • Wingspan: 60[24] ft (18 m)
  • Max takeoff weight: 170,000[5] lb (77,111 kg)
  • Powerplant: 3 × Rolls-Royce medium-bypass turbofans without afterburners, 15,000–20,000[9] lbf (67–89 kN) thrust each

Performance

  • Maximum speed: Mach 1.7
  • Range: 4,250 nmi (4,890 mi, 7,870 km)
  • Balanced Field Length: 10,000 ft (3,048 m)[30]

See also[]

Related development

Related lists

  • List of airliners

References[]

  1. ^ "United Adding Supersonic Speeds with New Agreement to Buy Aircraft from Boom Supersonic". United Hub. 3 June 2021. Retrieved 30 June 2021.
  2. ^ Jump up to: a b c d Aaron Karp (May 3, 2017). "Boom CEO sees market for 1,000 supersonic passenger jets by 2035". Air Transport World. Aviation Week.
  3. ^ "What does the airplane cost?". FAQ. Boom.
  4. ^ Jump up to: a b c Dominic Perry (13 Nov 2017). "Boom Supersonic to pick engines in 2018". Flightglobal.
  5. ^ Jump up to: a b c Stephen Trimble (11 Nov 2017). "Boom to make a big noise at show about shortening long-haul travel". Flightglobal.
  6. ^ Jump up to: a b c Stephen Trimble (June 20, 2017). "Boom Aerospace unveils design for XB-1 demonstrator". Flightglobal.
  7. ^ Kokalitcheva, Kia (23 March 2016). "This Startup Is Developing Supersonic Planes for Virgin Group". Fortune.
  8. ^ "Boom, the startup that wants to build supersonic planes, just signed a massive deal with Virgin". TechCrunch. Oath Tech Network. 23 March 2016.
  9. ^ Jump up to: a b c d e Stephen Trimble (5 Dec 2017). "JAL invests heavily in supersonic Boom". Flightglobal.
  10. ^ Jump up to: a b Tom Batchelor (23 July 2018). "Supersonic jets linking 'hundreds' of cities with ultra-fast flights will be 'affordable for all', plane maker insists". The Independent.
  11. ^ United Airlines [@United] (June 3, 2021). "We're the first U.S. airline to sign an agreement for @boomaero's 'Overture' airliners which are expected to be net-zero carbon and connect 500+ cities in nearly half the time. Taking off in 2029: boomsupersonic.com/united #BoomSupersonic" (Tweet) – via Twitter.
  12. ^ Linanne, Ciara (3 June 2021). "United Airlines to add 15 Boom 'Overture' supersonic airliners to fleet". Market Watch. Retrieved 4 June 2021.
  13. ^ Szondy, David (March 22, 2016). "Can Boom bring back supersonic flight without the astronomical price tag?". Gizmodo. Retrieved March 22, 2016.
  14. ^ "Potential Mach 2.2 Airliner Market Pegged At $260 Billion". Aviation Week. October 12, 2016.
  15. ^ Guy Norris (November 15, 2016). "'Baby Boom' Supersonic Demonstrator Unveiled". Aviation Week.
  16. ^ Mark Phelps (July 18, 2018). "Supersonic Future Remains Uncertain, Says New Report". AIN online.
  17. ^ Jump up to: a b c Graham Warwick (Jan 23, 2019). "Boom Advances Overture Supersonic Airliner As Demonstrator Takes Shape". Aviation Week & Space Technology.
  18. ^ Greg Waldron (19 June 2019). "Boom XB-1 schedule slips, while JAL eyes Overture". flightglobal.
  19. ^ Cook, Marc (8 September 2020). "Boom Enters Supersonic Air Force One Race". AVweb. Retrieved 14 September 2020.
  20. ^ Hemmerdinger, Jon (October 7, 2020). "Boom rolls out XB-1 supersonic demonstrator, lays out Overture timeline". Flight Global.
  21. ^ Jon Hersey (October 7, 2020). "Reinventing Flight: An Interview with Blake Scholl". The Objective Standard.
  22. ^ Jump up to: a b c "Overture". Boom Supersonic. Retrieved 4 June 2021.
  23. ^ Jump up to: a b Bjorn Fehrm (November 17, 2016). "Will Boom succeed where Concorde failed?". Leeham News.
  24. ^ Jump up to: a b c Sean Broderick (December 5, 2017). "Boom Lands Japan Air Lines as Major Investor, Customer". AIN.
  25. ^ Jump up to: a b Guy Norris (Dec 5, 2017). "JAL Options Up to 20 Boom Supersonic Airliners". Aviation Week & Space Technology.
  26. ^ "Reviving supersonic flight would likely have significant harmful environmental consequences, new analysis shows" (Press release). International Council on Clean Transportation. 2018-07-17.
  27. ^ Guy Norris (Jul 10, 2018). "Boom Focuses On Derivative Engines For Supersonic Airliner Plan". Aviation Week & Space Technology.
  28. ^ O'Connor, Kate (30 July 2020). "Boom, Rolls-Royce Partner On Supersonic Overture". AVweb. Retrieved 30 July 2020.
  29. ^ "United Airlines to bring back supersonic flying with Boom deal". Reuters. 3 June 2021. Retrieved 5 June 2021.
  30. ^ "Airliner". Boom Technology.

External links[]

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