Guiana Space Centre

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Template:Infobox launch pad Template:GeoGroup The Guiana Space Centre (Template:Langx; CSG), also called Europe's Spaceport,<ref>Template:Cite web</ref><ref>Template:Cite web</ref> is a spaceport to the northwest of Kourou in French Guiana, an overseas region of France in South America. Kourou is located approximately Template:Convert north of the equator at a latitude of 5°. In operation since 1968, it is a suitable location for a spaceport because of its near equatorial location and open sea to the east and north.

At CSG, space launches are conducted by several European private companies and government agencies working together. The CSG land itself is managed by CNES, the French national space agency. The launch infrastructure built on the CSG land is owned by the European Space Agency. The private company Arianespace operates the launches including planning missions, handling customer relationships and overseeing the team at CSG that integrates and prepares vehicles for launch. The rockets themselves are designed and produced by other companies, ArianeGroup for the Ariane 6 and Avio for the Vega.

In 1964, Guiana was selected to become the spaceport of France,<ref name="cnes" /><ref name="esa" /> replacing France's first launch site Centre interarmées d'essais d'engins spéciaux in Hammaguir (Algeria) after Algeria's independence,<ref name="Gorman 2009 pp. 132–145">Template:Cite journal</ref> moving to and expanding in Guiana colonization.<ref name="b361">Template:Cite web</ref> In 1975, France offered to share Kourou with the ESA, with ESA covering today two thirds of Guiana Space Centre's budget.<ref name="cnes">"Installation of the Guiana Space Center in French Guiana" Template:Webarchive. Guiana Space Centre official website</ref><ref name="esa">"Europe's Spaceport" Template:Webarchive. European Space Agency official website</ref> Commercial launches are also bought by non-European companies. ESA pays two-thirds of the spaceport's annual budget and has also financed the upgrades made during the development of the Ariane launchers.

On 4 April 2017, the center was occupied by 30 labour unions and indigenous peoples leaders in the midst of the 2017 social unrest in French Guiana. The center resumed operation on 24 April 2017, after an emergency relief plan of up to 2.1 billion euros was authorized by the French government.<ref name="lacroixlecentrespatialguyanais">Template:Cite news</ref><ref>Template:Cite web</ref>

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The location of the space centre was selected based on various factors. One of the primary benefits of this spaceport is its proximity to the equator, which makes it more efficient, requiring substantially less energy, to launch spacecraft into an near-equatorial, geostationary orbit compared to launching from spaceports at higher latitudes.

Additionally, the centre's location adjacent to the open sea to the east reduces the potential risk of rocket stages and debris from launch failures falling on or near human settlements, which enhances safety during spaceflight activities.

Furthermore, rockets typically launch towards the east to take advantage of Earth's rotation and the angular momentum it provides. The near-equatorial location of the Guiana Space Centre offers an advantage for launches to low-inclination or geostationary Earth orbits, as rockets can be launched into orbits with an inclination of as low as 6°. In contrast, a rocket launched from Cape Canaveral Space Force Station, with a latitude of 28.5°, can only be launched to an inclination of 28.5°, requiring a significant amount of propellant to change the inclination.

The location of the Guiana Space Centre provides benefits for launching spacecraft into low-inclination or geostationary Earth orbits. Rockets of similar size to those used at other spaceports to place satellites into geostationary transfer orbit (GTO), such as the Proton and Ariane 5 rockets, can send similar payloads to a low Earth orbit (LEO). For example, the Proton rocket, launched from high latitudes in Russia, can only send 6,270Template:Nbspkg to GTO, while the Kourou-launched Ariane 5 can send more than 10,000Template:Nbspkg to GTO.<ref>Template:Cite news</ref><ref>Template:Cite web</ref>

In 1969 a launch pad for the Diamant rocket was built. The first launch took place in 1970, which was also the first satellite launch from Kourou. More launches followed, but the pad was decommissioned in 1975.<ref>Template:Cite web</ref>

Beginning 2019 the pad is being reactivated. Multiple companies have announced that they would be using the pad for microlaunchers. Among them are Isar Aerospace, Rocket Factory Augsburg, ArianeGroup, PLD Space, Latitude, HyImpulse and Avio with their Spectrum, RFA One, Callisto, Themis, Miura 5, Zephyr and SL1 rockets. The pad will then be renamed ELM (Template:Langx). It is likely that PLD space will first use the pad in 2025.<ref>Template:Cite web</ref>

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Originally built in the 1960s under the name of Base Équatoriale du CECLES (Template:Langx), the pad was designed for the Europa-II launch vehicle. One Europa-II was launched from the site in 1971, which ended in failure due to a guidance problem, before the program was cancelled.<ref name="cnes-europa2">Template:Cite web</ref>

The pad at Guiana was demolished and subsequently rebuilt as the first launch complex for Ariane as ELA (Template:Lang). Redesignated later as ELA-1, it was used for Ariane 1 and Ariane 2 and 3 launches until being retired in 1989.<ref>Template:Cite web</ref>

In November 2001, it was refurbished again for the Vega rocket and renamed ELV (Template:Lang). The first launch was on 13 February 2012.<ref>Template:Cite web</ref>

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The ELA-2 pad (Template:Lang), built in 1986, had been used for Ariane 4 launches from 1988 until 2003. Before 1988, although purpose-built for Ariane 4, the pad hosted an Ariane-2 and two Ariane-3 launches. The complex consisted of two areas: the launcher preparation zone and the launch pad, separated by one kilometre, allowing a launcher to be assembled in the preparation zone while another launch from the pad. A mobile service tower at the launch pad provided a protected environment for payload installation and final preparation of the rocket.<ref name="Arianespace-CSG">Template:Cite web</ref> Following the retirement of the Ariane 4 in favor of the Ariane 5, In September 2011, the pad's service tower was demolished using explosives.<ref name="ELA2-dismantled">Template:Cite web</ref>

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ELA-3 (Template:Lang) was active between 4 June 1996 and 5 July 2023, launching the Ariane 5. This facility covers an area of Template:Cvt.<ref>Template:Cite web</ref>

In the future the site will be adapted by Avio for Vega-E launches.<ref>Template:Cite web</ref>

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ELA4 is located along the Route de l'Espace in the Roche Christine site between the ELA-3 and ELS launch facilities. CNES was responsible for the construction of the Ariane 6 ground segments including the new launch pad. Earthworks on the 150 hectare launch site began at the end of June 2015 and was completed at the start of 2016. Four platforms were levelled to accommodate the launch pad, the liquid oxygen and hydrogen tanks and the assembly building. Civil engineering works on the flame trench and other buildings began in the summer of 2016 and ended in 2019.<ref>Template:Cite web</ref><ref>Template:Cite web</ref> The new launch facility was inaugurated on 28 September 2021 with first flight of the Ariane 6 conducted on 9 July 2024.<ref>Template:Cite web</ref>

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ESA has built ELS (Template:Lang) for launching Russian-built Soyuz-2 rockets. The first Soyuz launch from ELS was postponed several times, but launched on 21 October 2011.<ref>SpaceflightNow's VS01 flight status page Template:Webarchive</ref>

ELS is located on the territory of Sinnamary commune, Template:Cvt from Kourou harbor.<ref>Template:Cite book</ref> It is Template:Cvt northwest of the site used for the Ariane 5 launches. Under the terms of the Russo-European joint venture, ESA will augment its own launch vehicle fleet with Soyuz rockets – using them to launch ESA or commercial payloads – and the Russians will get access to the Kourou spaceport for launching their own payloads with Soyuz rockets. Russia will use the Guiana Space Centre in addition to Baikonur Cosmodrome. The Guiana location has the significant benefit of greatly increased payload capability, owing to the near equatorial position. A Soyuz rocket with a 1.7 tones to geostationary transfer orbit performance from Baikonur will increase its payload potential to 2.8 tones from the Guiana launch site.<ref>Template:In lang Le Port Spatial de l'Europe (CNES) Template:Webarchive</ref>

The ELS project is being co-funded by Arianespace, ESA, and the European Union, with CNES being the prime contractor. The project has a projected cost of approximately €320 million, where €120 million are allocated for modernizing the Soyuz vehicle.<ref>Template:Cite web</ref> The official opening of the launch site construction occurred on 27 February 2007.

On 13 September 2010, Spaceflight Now reported that after several delays in the construction of a mobile gantry the launch pad had been finished, and the first flight of the Soyuz was expected to occur in early 2011.<ref name="SFNOW-2010-09-13">Template:Cite web</ref> By October 2010, 18 launch contracts were signed. Arianespace has ordered 24 launchers from Russian industry.<ref name="arianespace-2010-10-11">Template:Cite press release</ref>

On 21 October 2011, two Galileo IOV-1 and IOV-2 satellites were launched using a Soyuz-ST rocket, in the "first Russian Soyuz vehicle ever launched from Europe's Spaceport in French Guiana.".<ref name=pa20111022>Template:Cite news</ref>

On 26 February 2022, Roscosmos announced that it was suspending operations at ELS as a reaction to international sanctions during the Russo-Ukrainian War.<ref>Template:Cite web</ref> According to Stephane Israël, CEO of Arianespace, "there will no longer be Soyuz launches" from the Guiana Space Center.<ref name="la1ere.francetvinfo.fr">Template:Cite web</ref>

In April 2024 CNES put out a call to take over the launch pad. In September the same year MaiaSpace was chosen to use the pad for their two-stage Maia rocket. The company want to invest tens of millions of euros and aims for an inaugural launch in late 2025. ESA retains a right to select another company of their European Launch Challenge to also use the pad.<ref>Template:Cite web</ref>

Astrium assembles each Ariane 5 launcher in the Launcher Integration Building. The vehicle is then delivered to the Final Assembly Building for payload integration by Arianespace.<ref>Template:Cite web</ref> The Final Assembly Building is located Template:Cvt from the ELA-3 launch zone. The mobile launch table completes the trip with an Ariane 5 in about one hour. It is then secured in place over the launch pad's flame ducts.<ref>Template:Cite web</ref>

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Fire safety is ensured by a detachment of the Paris Fire Brigade, a branch of the French Army. Security around the base is ensured by French Gendarmerie forces, assisted by the 3rd Foreign Infantry Regiment of the French Foreign Legion.Template:Citation needed Before and during launch windows, CSG facility security is significantly enhanced by anti-personnel and anti-aircraft measures, the exact configurations of which are classified by the French military. All entrants to the launch complex are also subject to checks for proof of permission to enter the facility.Template:Citation needed

The Guiana Space Centre (as per CNES) also contains the Îles du Salut, a former penal colony including the infamous Devil's Island. Now a tourist site, the islands are under the launching trajectory for geosynchronous orbit and have to be evacuated during launches.

• 10 March 1970 – The first Diamant-B launched the DIAL/MIKA and DIAL/WIKA satellites. DIAL/MIKA failed during launch, but it entered orbit with a total mass of 111 kg.<ref>Template:Cite web Template:PD-notice</ref> DIAL/WIKA provided data for about two months after launch.<ref>Template:Cite web Template:PD-notice</ref>

• 21 May 2011 – 04:38 (GMT+08:00) An Ariane 5 ECA launch vehicle launched carrying ST-2 Satellite twice as powerful Singtel's first satellite ST-1, which was launched back in 1998. It will provide 20% more transponder capacity and a wider coverage footprint than ST-1, with C-band and Ku-band coverage of the Middle East, Central Asia, Indian subcontinent and Southeast Asia.Template:Citation needed
• 21 October 2011 – A Soyuz-2 carrying two Galileo satellites was launched. This was the first launch of a Soyuz rocket at the Centre Spatial Guyanais.<ref>Template:Cite web</ref>
• 17 December 2011 – A Soyuz carrying the French space agency's Pleiades 1 Earth imaging satellite, four ELISA electronic intelligence satellites, and the SSOT remote sensing satellite for the Chilean military. This was the second launch of a Soyuz at the Guiana Space Centre.<ref>Template:Cite web</ref>
• 13 February 2012 – The Vega, which was designed in Italy, lifted off at 10:00 UTC on its maiden voyage. The launcher released nine satellites into orbit: two Italian satellites and seven pico-satellites.<ref>Template:Cite web</ref>
• 5 July 2012 – The uncrewed Ariane 5 rocket took off to send an American communication satellite and European weather-monitoring spacecraft into orbit. Liftoff occurred at 21:36 UTC.<ref>Template:Cite web</ref>
• 30 August 2013 – Indian Space Research Organisation (ISRO) launched the advanced multi-band communication satellite GSAT-7.<ref>India launches first defence satellite GSAT-7 Template:Webarchive</ref> It was 17th Indian satellite launched from ESA with Ariane 5.<ref>Navy's first satellite GSAT-7 now in the Space Template:Webarchive The Hindu, 30 August 2013 by Madhumati D. S.</ref>
• 16 October 2014 – An Ariane 5 launch vehicle carrying the communication satellite ARSAT-1 to orbit. It is the first geostationary satellite built by a Latin American country, Argentina, and the second one of the Americas, after the U.S.
• 30 September 2015 – An Ariane 5 launch vehicle carrying the communication satellite ARSAT-2 to orbit, being the second Argentine geostationary satellite built in two years.
• 1 October 2015 – Sky Muster (NBN-Co 1A) is a communication satellite launched on an Ariane 5 ECA launch vehicle. Sky Muster is the first satellite of an operation to improve Australia's internet with the NBN program.
• 6 October 2016 – Sky Muster II (NBN-Co 1B) is a communication satellite launched on an Ariane 5 ECA launch vehicle. Sky Muster II is the second satellite of an operation to improve Australia's internet with the NBN program.
• 28 January 2017 – A Soyuz-2 STB carrying the geostationary communication satellite Hispasat 36W-1 to orbit. It is the first of the ESA's "Small-GEO" class of satellites.
• 14 February 2017 – An Ariane 5 launch vehicle carrying the commercial communication satellites Sky Brasil 1 (Intelsat 32e) and Telekom 3S launched the satellites to a geostationary orbit.
• 25 January 2018 – Partial failure of Ariane 5 launch vehicle on Ariane flight VA241.
• 19 October 2018 – An Ariane 5 launched the European-Japanese BepiColombo mission to Mercury.<ref>Template:Cite web</ref>
• 5 February 2019 – An Ariane 5 launched the Saudi Geostationary Satellite SGS-1 (also known as SaudiGeosat-1/HellasSat-4).
• 11 July 2019 – Vega failed to launch Falcon Eye 1 satellite for United Arab Emirates Armed Forces.
• 15 August 2020 – An Ariane 5 launched MEV-2, BSAT-4b, and Galaxy-30.<ref>Template:Cite web</ref>
• 17 November 2020 – Vega failed to launch TARANIS and SEOSat-Ingenio.<ref>Template:Cite web</ref>
• 25 December 2021 – An Ariane 5 launched the James Webb Space Telescope.<ref>Template:Cite web</ref>
• 13 December 2022 — An Ariane 5 launched the first third generation Meteosat: Meteosat MTG-I1.<ref>Template:Cite web</ref>
• 21 December 2022 – Vega-C failed to launch two Pléiades Neo satellites from Airbus Defence and Space.<ref>Template:Cite web</ref>
• 14 April 2023 – An Ariane 5 launched the JUICE space probe on an 8-year journey to Jupiter, including four gravity assist maneuvers at the Moon, Earth, and Venus, where it will study three of Jupiter's Galilean moons: Ganymede, Callisto, and Europa.<ref>Template:Cite web</ref>
• 5 July 2023 – Ariane 5 launched two military communication satellites from France and Germany (Syracuse 4B and Heinrich Hertz) as its final mission.<ref>Template:Cite web</ref>
• 9 July 2024 – Ariane 6 launched on its maiden flight.

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Complex	Status	Tenant	Uses	Notable Launches	Coordinates
Ensemble de Lancement Fusées-Sondes	Inactive	Various companies	Future: Sounding rockets<ref>Template:Cite web</ref> Retired: Sounding rockets		Template:Coord
Ensemble de Lancement Multilanceurs	Inactive	Various companies	Future: Miura 5, RFA One Spectrum Zephyr SL1 CALLISTO Themis Retired: Diamant ELM is planned to be a reconfigurable multipurpose launch site, similarly to SLC-46 at Cape Canaveral		Template:Coord
Ensemble de Lancement Vega	Active	Arianespace	Current: Vega C Retired: Europa II, Ariane 1, Ariane 2, Ariane 3, Vega	CAT-1, Giotto, IXV, LISA Pathfinder	Template:Coord
Ensemble de Lancement Ariane 2	Inactive		Retired: Ariane 2, Ariane 3, Ariane 4	ERS-1, Infrared Space Observatory	Template:Coord
Ensemble de Lancement Ariane 3	Inactive	Arianespace	Future: Vega-E Retired: Ariane 5	XMM-Newton, EnviSat, Rosetta, ATV-1 "Jules Verne", Herschel, Planck, ATV-5 "Georges Lemaître", BepiColombo, James Webb Space Telescope, Jupiter Icey Moons Explorer	Template:Coord
Ensemble de Lancement Ariane 4	Active	Arianespace	Current: Ariane 6		Template:Coord
Ensemble de Lancement Soyouz	Inactive	MaiaSpace	Future: Maia Suspended: Soyuz ST-A, Soyuz ST-B	Gaia, Sentinel-1A, CHEOPS	Template:Coord

Template:Updated Template:As of, Kourou counts amongst the spaceports with the highest percentage of successful launches, both successive and overall. Here is a chronology of all orbital launches from the Kourou spaceport since 1970, under the French and European space programmes. Template:Clear right

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The space sector was responsible for about 15% of French Guiana's GDP in 2014, around half of the 28% it was in 1990. This reduction is mostly due to expansion in other sectors, rather than decreasing space activity. As of 2020, the space sector employed 4,620 people in Guiana, meaning the industry was responsible for just under 10% of salaried jobs in the overseas department,<ref>Template:Cite web</ref> though there are estimates that as many as 9,000 people are employed directly and indirectly as a result of activities at the spaceport.<ref name="pledge">Template:Cite web</ref> The Guiana Space Centre (or CSG) is one of the spaceports in the world that receives the most traffic, and it receives large amounts of funding from the European Space Agency (ESA), with the organisation covering around 66% of the spaceport's annual budget, as well as financing new facilities.<ref>Template:Cite web</ref> Indigenous and local activist groups argue that mainland France is only interested in French Guiana as far as the space centre is concerned, and the funding that the space centre receives is symbolic given the inequity in living standards seen between the department and mainland France.<ref>Template:Cite news</ref><ref name="hostage">Template:Cite web</ref> For example, despite there being high poverty levels and unemployment rates of over 20% in the department, the cost of living remains high due to a dependence on mainland France for imported food and resources, yet large amounts of funding are invested in the space programme, rather than in public services for the department.<ref>Template:Cite web</ref>

The department became the site of strikes and protests throughout March and April 2017, which were held to highlight the insecurity and infrastructural issues facing French Guiana. Alongside 30 labour unions who launched strikes, the Collective of 500 Brothers led protests in Kourou, which spread across the entire country, and resonated in mainland France.<ref>Template:Cite web</ref><ref>Template:Cite news</ref> On 21 March 2017, the launch of an Ariane 5 rocket carrying a Brazilian satellite and a South Korean satellite was prevented due to protesters and workers on strike from the CSG blockading the centre.<ref>Template:Cite news</ref> Further strikes and occupation of the space centre meant that the satellites were not launched until May 2017.<ref>Template:Cite web</ref> Negotiations between the French government and Guianese protesters resulted in a rejection of a €1.1 billion offer made by the French, with the Guianese demanding at least €3 billion in aid.<ref name="hostage" /> Since the protests, CNES (National Centre for Space Studies), the French government space agency that operates the spaceport, added an additional €10 million to the €40 million it had already pledged to fund economic and social programmes in French Guiana.<ref name="pledge" />

Space launches have increased aluminium concentrations around the site.<ref name="s399">Template:Cite web</ref>

Particularly regarding the colonial history the site has been identified as carrying a heritage of colonialism and imperialism into space.<ref name="t669">Template:Cite journal</ref><ref name="r459">Template:Cite journal</ref>

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• 3rd Foreign Infantry Regiment
• ESA Centre for Earth Observation (ESRIN)
• European Astronaut Centre (EAC)
• European Centre for Space Applications and Telecommunications (ECSAT)
• European Space Agency (ESA)
• European Space Astronomy Centre (ESAC)
• European Space Operations Centre (ESOC)
• European Space Research and Technology Centre (ESTEC)
• European Space Tracking Network (ESTRACK)
• French space program

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• Template:Official website Template:In lang
• Soyouz in Guiana
• Europe's Spaceport Template:Webarchive – information from ESA
• List of Stratospheric Balloons launched from CSG – information from StratoCat
• Arianespace mission status – information on current and upcoming Ariane missions; list of past missions

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