• Comment: Article sources are limited to coverage of the competition, not the company (collective?) itself. Other sources are either not independent or provide no significant coverage (e.g. refs 11-13). ARandomName123 (talk)Ping me! 01:11, 17 August 2023 (UTC)
  • Comment: The product section also needs sources. Gorden 2211 (talk) 03:16, 8 August 2023 (UTC)
  • Comment: Only one independent source Karnataka talk 17:59, 5 August 2023 (UTC)

FAST Aerospace's Trinity engine concept, a combined cycle multimode propulsive unit that runs on liquid hydrogen and that grants speeds up to Mach 5

FAST Aerospace[1] is an Italian collective of engineers symbolically founded in 2022 that is currently working on the design, development and building of an hypersonic TSTO used for the delivery of small satellites in Low Earth Orbit (LEO). The company claims that its product, an autonomous aircraft called HyperDart, will be able to take off from many European airports and land back at the same location after completing its mission.

Although many members are Politecnico di Milano alumni, the group has some members that come form other Italian universities, too.

History

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The group was first formed in autumn 2021 to enroll in the Student Aerospace Challenge[2], a European competition for universities' students, with various categories. The group chose to design a combined cycle multimode engine, capable of hauling a 100-passengers airplane from Rome to Tokyo in under two hours. At the time the team was composed by seven people, all students at Polytechnic University of Milan in the aerospace engineering faculty and members of Polispace[3], the university's first students' space association.

The result of such work was called Trinity[4], and its phase-A design was awarded by the same jury the "Ariane Group" prize, for its technical goodness and adherence to challenge requirements[5][6][7][8][9]

After the challenge, the team presented Trinity at the International Astronautical Congress, held in Paris in 2022, gathering the attention of other industry players such as Destinus.

Later that year, some of the people that worked on Trinity chose to turn the group into a pre-seed startup, changing the scope of the project from the engine design challenge to the realization of a full launcher, with the propulsive unit deriving from the former engine. This launcher is called HyperDart, and, according to the group's website[10], it would fall in the TSTO category, a family of space launchers composed by only two stages.

Since autumn 2022, the team has been developing HyperDart under all its aspects, from the technical point of view to the business point of view. Among this development there is a nation-wide recruitment campaign conducted by the team in late spring 2023, that brought the group from 5 to 12 people currently working on the project.

Scientific publications

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Past

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  • IAC-22,C4,7,4,x70325[11] - "Concept design of a combined cycle hydrolox engine for commercial suborbital spaceflight applications"
  • IAC-23,D2,2,10,x77670[12] - "Trajectory Optimization for Multi-Stage systems: A combined Airbreathing and Rocket Approach"
  • IAC-23,D2,IPB,1,x77672[13] - "Trade-off studies on mission architecture and configuration of a small partially reusable stratolauncher for smallsat LEO delivery"

Product

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HyperDart

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The group has declared that it is currently working on a vehicle for space transportation called HyperDart[10], that promises partial reusability and launch cost reduction[14].

 
Artist's representation of HyperDart. The carrier is visible on the bottom with its airplane shape, while the second stage is mounted on top. Although the vehicle depicts the Italian cockade, the group has no connections with the Italian Air Force

The vehicle, an unmanned and remotely controlled drone with autonomous capabilities, would be able to carry into LEO a payload of up to 250 kg[10]. However, it is not clear what will be the mode of delivery (e.g. dedicated launch or rideshare).

HyperDart would be composed of two parts:

  • a carrier, or first stage, with lifting surfaces and an airbreathing propulsive unit composed of a low-bypass turbofan coupled with a ramjet, suited for hypersonic speeds;
  • a rocket, or second stage, that at a designed altitude and speed would detach form the carrier and complete its insertion into orbit, thus delivering the payload and completing the mission.[13]

The propulsive unit of the carrier would be derived from the former engine concept, Trinity [11], although with great modifications [10]. One over the others is the elimination of the rocket engine from the first stage. Moreover, the propellant used for the engine would not be hydrogen, like it was with Trinity, but Jet-A instead. This might have to do with the great challenges that the use of hydrogen in the aviation industry poses, often related to its difficult storability, although there are concepts of hypersonic planes that run on this propellant [15]. With the use of hydrocarbons, FAST Aerospace has probably chosen to grant more flexibility and ease of use to an already greatly innovative the system, on the expenses of being the leader of hydrogen aviation propulsion.

See also

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References

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  1. ^ "Fast Aerospace | Smallsat stratolauncher | Italy". Fast Aerospace. Retrieved 2023-08-05.
  2. ^ "Bienvenue sur le site du Défi Aérospatial Etudiant". www.studentaerospacechallenge.eu. Retrieved 2023-08-11.
  3. ^ "Home". Polispace. Retrieved 2023-08-11.
  4. ^ Scimone, Dario (2022-06-26). "FAST Project". Polispace. Retrieved 2023-08-11.
  5. ^ "Dipartimento di Scienze e Tecnologie Aerospaziali". www.aero.polimi.it. Retrieved 2023-08-05.
  6. ^ "A Tokyo in 2 ore: impresa possibile con il motore ideato da Alberto". Giornale di brescia (in Italian). 2022-07-08. Retrieved 2023-08-05.
  7. ^ ""Da Parigi a Tokyo in meno di due ore": c'è anche un ossolano tra gli inventori del motore Trinity". La Stampa (in Italian). 2022-08-22. Retrieved 2023-08-05.
  8. ^ Ferretti, Emanuele "Mané" (2022-08-23). "Roma-Tokyo in due ore: abbiamo parlato con gli ideatori del progetto di un nuovo potentissimo motore". Aviation Report (in Italian). Retrieved 2023-08-05.
  9. ^ redazionale (2022-08-25). "L'italiano Fast Aerospace Transporation Team è il vincitore del "Ariane Group Prize"". Ares Osservatorio Difesa (in Italian). Retrieved 2023-08-05.
  10. ^ a b c d "Hardware". Fast Aerospace. Retrieved 2023-08-05.
  11. ^ a b "Paper information (70325) — IAF". iafastro.directory. Retrieved 2023-08-05.
  12. ^ "Paper information (77670) — IAF". iafastro.directory. Retrieved 2023-08-05.
  13. ^ a b "Paper information (77672) — IAF". iafastro.directory. Retrieved 2023-08-05.
  14. ^ "Mission". Fast Aerospace. Retrieved 2023-08-05.
  15. ^ "Hydrogen - Destinus". Destinus - A New Class of Fast. 2021-09-16. Retrieved 2023-08-08.