Jump to content

PLD Space

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by 143.167.254.160 (talk) at 13:07, 8 April 2019 (History: Formerly: "and the first time a private company in Europe testing a liquid rocket engine in its owned facilities". Now: "and the first time a private company in Europe tested a liquid rocket engine on its own facilities".). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Payload Aerospace S.L (PLD Space)
Company typePrivate
IndustryLaunch service provider
Founded2011; 14 years ago (2011)
Headquarters
Elche, Spain
Key people
Raúl Torres (co-founder & CEO); Raúl Verdú (co-founder & CBDO); Eleazar González (CTO); Juny Crespo (COO)
ProductsMiura 1 rocket
Miura 5 rocket
ServicesSuborbital & orbital rocket launch; Rocket engine testing
Number of employees
~ 40 (May 2018)
Websitepldspace.com

Payload Aerospace S.L. (PLD Space) is a Spanish company developing two reusable launch vehicles called Miura 1 and Miura 5.

Miura 1 is designed as a sounding rocket for sub-orbital flights to perform research or technology development in microgravity environment and/or in the upper atmosphere. Furthermore, Miura 1 is also serving as the technological demonstrator of the orbital launcher Miura 5. Miura 5 will provide orbital launch capabilities for small payloads such as CubeSats or microsatellites, that need a flexible and dedicated launch vehicle and therefore can not fly with traditional launch vehicles. It is being designed to deliver a payload mass up to 300 kg into low Earth orbit.[1][2]

History

Headquarters of PLD Space in Elche, Spain

PLD Space was founded in 2011 by Raúl Torres and Raúl Verdú in Elche, Spain, and as of 2018 it employs 40 people. In August 2017 the company headquarter moved to new facilities in the Elche Industrial Park, where the assembly facilities for Miura 1 are located.[3]

Since 2014, the company is operating an engine test stand located at the Airport in Teruel,[4] where they performed the first test of its liquid fuel engine on July 1, 2015.[5] It was the first time a liquid rocket engine was tested in Spain, and the first time a private company in Europe tested a liquid rocket engine on its own facilities. PLD Space plans to expand their test facilities to include a vertical test stand to qualify the complete Miura 1 suborbital rocket.[6]

In early August 2018, PLD Space and the Teruel Airport Consortium signed the concession of a 13,337 m2 space at the airport for the PLD Space to test launcher technology. The agreement has a period of 25 years, with the option of an additional 10-year extension. PLD Space will invest euro 1M in infrastructure for the construction of a new control room, offices, access paths, a rocket engine maintenance hangar and a new test bench to test the complete Miura 1 rocket.[7]

Funding

Interior of the PLD space offices

The company has been funded through a series of investment rounds with institutional and private sources and up to now gathered investments worth around $10 million. In 2013 they closed a $ 1.6 million investment round,[8] including a seed contract with the Spanish Government through the Technological and Industrial Development Centre (CDTI).

PLD Space secured its first commercial contract as one of the partners in the Small Innovative Launcher for Europe (SMILE) program with the European Commission and the German Aerospace Center (DLR) in December 2015. The company is responsible for testing liquid propulsion engines for the DLR at its propulsion test facilities in the Airport of Teruel.[9][10] In April 2016, PLD Space secured a further $1.56 million from Spain's TEPREL reusable launcher engine program. TEPREL (Acronym for Spanish Reusable Propulsion Technologies for Launchers) will help PLD Space to continue their liquid rocket engine program,[8][11],\ the first one in Spain dedicated to boost the small satellite industry in Europe. This project will help PLD Space to develop a 35 kN rocket engine qualified for flight.

In October 2016, The European Space Agency (ESA) selected PLD Space as the prime contractor for the "Liquid Propulsion Stage Recovery" project (LPSR) as part of the agency's Future Launchers Preparatory Program (FLPP). The goal of this project is to study a strategy to recover the first stage of a launcher, making it partially reusable, with a prospected funding of $800,000.[12] In a second investment round, closed in January 2017, the company secured $7.1 million, $3.2 million of that contributed by GMV. GMV also took the role to develop the complete avionics of Miura 1 and Miura 5, including guidance, navigation and control (GNC), telemetry and onboard software for both launchers.[13] PLD Space received further $2.34 million in January 2018 through the European Commissions Medium-sized Enterprises (SME) Instrument Phase 2, as part of the European Union's Horizon 2020 program for research and innovation, a grant to support to the development of a pair of launchers designed for small satellites.[14] In February 2018 PLD Space was one of the five companies chosen by ESA to perform a feasibility study proposing an economically viable, commercially self-sustaining microlauncher. For this, the company received a funding of $368,000.[15][16]

Rocket engine

TEPREL-B
Country of originSpain
DesignerPLD Space
ManufacturerPLD Space
PredecessorTEPREL-DEMO
Statusunder development
Liquid-fuel engine
Propellantliquid oxygen / kerosene
Performance
Thrust32 kN [6][17]
Burn time2 minutes

PLD Space is developing a liquid propellant rocket engine technology to be used on their launchers. The TEPREL engine, called after the Spanish reusable engine program that is financing its development, uses kerosene and liquid oxygen as propellants.[18] So far, several versions of this engine, intended to propel Miura 1, have been developed and tested on the company's own liquid propulsion test facilities located in Teruel, Spain.

TEPREL-DEMO

The TEPREL-DEMO engine was first tested in 2015. It is a calorimetric engine model, intended to demonstrate combustion stability as well as to acquire relevant information such as ignition and shut-down sequences, pressures and temperatures along the engine, thrust and propellant mass flow rates at different thrust profiles. Additionally, the engine served to test all associated hardware and software at PLD Space propulsion test facilities. The engine is capable to produce a thrust of 28 kN at sea level.[17][6]

TEPREL-A

With the TEPREL-A engine, first tested in 2017, the company included several design upgrades, such as an improved injector geometry and a regenerative cooling system. The later enables the engine to fire for nearly 2 minutes, which is the envisaged nominal functioning duration for the suborbital launch vehicle Miura 1. At sea level, the engine produces a thrust of 32 kN.[6][17]

TEPREL-B

TEPREL-B is the first flight version of the TEPREL engine. Several design improvements have been implemented to reduce the overall weight of the engine. It is equipped with a thrust-vector-control system.

Vehicles

Miura 1

Miura 1
Functionsub-orbital launcher
ManufacturerPLD Space
Country of originSpain
Size
Height12.7 m
Diameter0.7 m (2 ft 4 in)
Stages1
Capacity
Payload to suborbital
Mass100 kg (220 lb) [19]
Launch history
StatusIn development[19]
stage
Propellantliquid oxygen (1,000 L) / kerosene (600 L)[19]
[edit on Wikidata]

Miura 1 (previously called Arion 1)[1][20] was originally proposed as a two-stage rocket capable of achieving suborbital flight. It was originally planned to be 12 m long, with a capacity of 250 kg (551 lb). The engines were to use liquid oxygen and kerosene as propellants.[21]

In its final design, Miura 1 is a 12.7 m long 0.7 m diameter one-stage rocket, propelled by one TEPREL-B engine. The vehicle can fly a payload of up to 200 kg on a suborbital trajectory. In its first mission it will carry 100 kg of payload to an apogee of 150 km. Additionally, Miura 1 is equipped with a recovery system using its engines and parachutes that enable PLD Space to recover the vehicle from the ocean and re-use the complete launch vehicle.[22] With this, it will be the first recoverable launch vehicle in Europe.[6] Miura 1 is intended to be used for scientific research or technology development in a microgravity environment and/or in the upper atmosphere. Furthermore, about 70% of the technology developed for Miura 1 is planned to be used on the Miura 5 orbital rocket.[23]

Miura 5

Miura 5
Functionlauncher to low Earth orbit
ManufacturerPLD Space
Country of originSpain
Size
Height20.7 m (68 ft)
Stages3
Capacity
Payload to low Earth orbit
Mass300 kg (660 lb) [1]
Associated rockets
ComparableShavit, Kaituozhe-1, Unha, Prime, Electron, Vector-H
Launch history
StatusUnder development
stage
Propellantliquid oxygen / kerosene
[edit on Wikidata]

Miura 5 (previously called Arion 2)[1][20] is a 20.7 m long three-stage launch vehicle, capable of inserting 300 kg of payload into a 400 km low Earth orbit,[1] featuring a kick stage that can circularize the orbits of satellites. All three stages are planned to be liquid-propelled and its technology is inherited from Miura 1. The first stage is reusable by the combined use of its engines and parachutes for retrieval.[22]

Launch schedule

The first test flight of Miura 1 is foreseen to take place late in 2019 from an experimental rocket launch site in Huelva, southwestern Spain, called El Arenosillo,[24] and it will carry a payload from the German Center of Applied Space Technology and Microgravity (ZARM).[20] The commercial flight service will begin in 2020.[citation needed] Up to eight suborbital launches are targeted per year.

The first test flight of Miura 5 is planned to take place in late 2021.[20][25]

See also

References

  1. ^ a b c d e Henry, Caleb (28 November 2018). "PLD Space, after ESA input, doubles lift capacity of smallsat launcher". SpaceNews. Retrieved 29 November 2018.
  2. ^ Henry, Caleb (30 November 2016). "Spanish propulsion startup wants to build Europe's first reusable rockets". SpaceNews. Retrieved 3 March 2019.
  3. ^ Moltó, Daniel (11 Feb 2018). "PLD Space: Talento de Elche a la conquista del mercado aeroespacial". elmundo.es. Retrieved 27 May 2018.
  4. ^ Franco, Leonor (21 Dec 2018). "PLD Space creará un nuevo banco de pruebas en el aeropuerto para cohetes completos". heraldo.es. Retrieved 27 May 2018.
  5. ^ Peláez, J (2 Dec 2015). "PLD Space, la empresa española camino de lanzar satélites e incluso alcanzar la Luna". yahoo.com. Retrieved 27 May 2018.
  6. ^ a b c d e Marín, Daniel (16 Feb 2018). "Europa apuesta por PLD Space para alcanzar el espacio". Retrieved 27 May 2018.
  7. ^ "PLD SPACE signs a 25-year concession for rocket engine testing at Teruel Airport". SpaceDaily. 7 August 2018. Retrieved 3 March 2019.
  8. ^ a b Caleb, Henry (9 Jan 2017). "Spain's GMV takes a stake in PLD Space's reusable rocket quest". SpaceNews. Retrieved 27 May 2018.
  9. ^ "PLD Space Receives Funding For Liquid Rocket Engine Propulsion Project". satnews.com. 27 Jul 2016. Retrieved 27 May 2018.
  10. ^ "Start of design for concept SMall Innovative Launcher for Europe (SMILE)". nlr.org. 31 May 2016. Retrieved 27 May 2018.
  11. ^ Messier, Doug (10 April 2016). "PLD Space Receives Funding From Spanish Government". parabolicarc.com. Retrieved 27 May 2018.
  12. ^ "La ESA confía a la española PLD Space su proyecto de cohete reutilizable". europapress.es. 3 March 2016. Retrieved 27 May 2018.
  13. ^ "La multinacional GMV invierte en PLD Space". pldspace.com. 9 Jan 2017. Retrieved 27 May 2018.
  14. ^ "PLD Space Awarded €2m Grant from the European Commission for the ARION Micro-Launcher Programme". Retrieved 27 May 2018.
  15. ^ "ESA explores microlaunchers for small satellites". 8 Feb 2018. Retrieved 27 May 2018.
  16. ^ Caleb, Henry (8 Feb 2018). "ESA awards five smallsat launcher study contracts". SpaceNews. Retrieved 27 May 2018.
  17. ^ a b c "PLD Space ready to test its new engine". pldspace.com. 10 Jul 2017. Retrieved 27 May 2018.
  18. ^ "The Spanish Government supports PLD Space launchers development with a $1.56M TEPREL program". pldspace.com. 27 April 2016. Retrieved 27 May 2018.
  19. ^ a b c Miura 1. PLD Space. Accessed on 15 December 2018.
  20. ^ a b c d "Since today, MIURA is the new PLD Space rocket's commercial brand" (Press release). PLD Space. 13 November 2018. Retrieved 3 March 2019.
  21. ^ Marín, Daniel. "La primera prueba de un motor cohete de combustible líquido en España". Eureka. Naukas. Retrieved 22 April 2016.
  22. ^ a b Henry, Caleb (11 June 2018). "PLD Space raises additional $10 million for reusable smallsat launchers]". SpaceNews. Retrieved 3 March 2019.
  23. ^ López Sánchez, Gonzalo (22 Jan 2018). "Arion, el cohete español capaz de alcanzar la Luna". abc.es. Retrieved 27 May 2018.
  24. ^ "Agreement reached between INTA and PLD Space to launch MIURA 1 from the "El Arenosillo"" (Press release). PLD Space. 21 November 2018. Retrieved 3 March 2019.
  25. ^ Henry, Caleb (10 January 2018). "Spain's PLD Space receives $2.4 million grant for smallsat launchers". SpaceNews. Retrieved 2 September 2018.
Wikimedia Commons has media related to PLD Space.
Retrieved from "https://en.wikipedia.org/enwiki/w/index.php?title=PLD_Space&oldid=891515679"