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{{Short description|Planned ESA uncrewed spaceplane}} |
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{{about|the spaceship|the 1984 film|Space Riders|other uses|Spacerider (disambiguation)}} |
{{about|the spaceship|the 1984 film|Space Riders|other uses|Spacerider (disambiguation)}} |
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{{Use British English|date=November 2018}} |
{{Use British English|date=November 2018}} |
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{{Infobox spaceflight |
{{Infobox spaceflight |
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| name = Space Rider<ref name="Space Rider programme manager update"/> |
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| name = Space RIDER |
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| names_list = Space Reusable Integrated Demonstrator for Europe Return<ref name='Space Rider PRIDE'/> |
| names_list = Space Reusable Integrated Demonstrator for Europe Return <ref name='Space Rider PRIDE'/> |
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| image = <noinclude>Space_Rider_ESA.jpg</noinclude> |
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| image_caption = Artist's rendering of Space Rider spaceship |
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<!--image of the spacecraft/mission-->| image = Space_Rider_ESA.jpg |
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| image_size = 300px |
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| image_caption = Artist's rendering of Space RIDER |
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| mission_type = [[Reusable spaceship|Reusable]] [[spaceplane]] |
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| image_size = <!--include px/em; defaults to 220px--> |
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| operator = [[European Space Agency|ESA]] |
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| mission_type = [[Reusable spaceship|Reusable]] [[Spaceplane|spaceplane]] |
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| COSPAR_ID = |
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| operator = [[ESA]] |
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| |
| SATCAT = |
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| website = {{url|https://m.esa.int/Our_Activities/Space_Transportation/Space_Rider}} |
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| SATCAT = |
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| mission_duration = 60 days (planned) |
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| website = {{url|https://m.esa.int/Our_Activities/Space_Transportation/Space_Rider}} |
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| spacecraft = Space RIDER |
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| mission_duration = <!--How long the mission lasted--> |
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| spacecraft_type = [[Lifting body]] [[spaceplane]] |
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| orbits_completed = <!--number of times the spacecraft orbited the Earth - see below for spacecraft beyond Earth orbit--> |
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| manufacturer = [[Avio]] and [[Thales Alenia Space]]<ref name='Space Rider programme manager update'/> |
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| suborbital_range = <!--downrange distance reached if spacecraft did not enter orbit--> |
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| launch_mass = Approx. 4900 kg (Full stack AOM + RM, including fluids and propellants)<ref name='Space Rider programme manager update'/> |
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| suborbital_apogee = <!--altitude reached if spacecraft did not enter orbit--> |
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| landing_mass = up to 2850kg<ref name='Space Rider programme manager update'/> |
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| payload_mass = {{cvt|600|kg}}<ref name='Space Rider programme manager update'/> |
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<!--Spacecraft properties-->| spacecraft = Space RIDER |
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| dimensions = Length: {{cvt|8.044|m}} (Full stack AOM + RM)<ref name='Space Rider programme manager update'/> |
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| spacecraft_type = [[Lifting body]] [[spaceplane]] |
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| power = 600 [[watt]]s<ref name='SR Factsheet'/> |
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| manufacturer = [[Italian Aerospace Research Centre|CIRA]] and [[Thales Alenia Space]] |
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| launch_date = Q3 2025 (planned)<ref name="nsf-20230826"/> |
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| launch_rocket = [[Vega-C]] |
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| landing_mass = 1,900 to 2,550 kg |
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| launch_site = [[Guiana Space Centre]] |
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| dry_mass = <!--spacecraft mass in orbit without fuel--> |
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| launch_contractor = [[Arianespace]] |
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| payload_mass = 800 kg |
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| landing_date = |
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| dimensions = Length: {{convert|4.5|m|abbr=on}}<ref>[https://www.nasaspaceflight.com/2019/06/esa-vega-c-european-access-space/ ESA promotes Vega's evolution for independent European access to space.] Chris Bergin, ''NASA Spaceflight''. 4 June 2019.</ref> |
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| landing_site = [[Guiana Space Centre]]<ref name='Space Rider programme manager update'/> |
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| orbit_reference = [[Geocentric orbit|Geocentric]] |
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| orbit_regime = [[Low Earth orbit]] |
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<!--Launch details-->| launch_date = Planned: 2022<ref name='Irving June2019'>[https://newatlas.com/esa-space-rider-reusable-spacecraft/60014/ ESA's reusable Space Rider capsule would carry equipment to orbit and back]. Michael Irving, ''New Atlas''. 6 June 2019.</ref> |
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| orbit_periapsis = |
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| launch_rocket = [[Vega-C]] |
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| orbit_apoapsis = |
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| launch_site = [[Guiana Space Centre]] |
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| orbit_inclination = |
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| launch_contractor = [[Arianespace]] |
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| orbit_period = |
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| apsis = gee |
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<!--end of mission-->| landing_date = <!--when the spacecraft made a controlled landing, not needed if it did not return intact--> |
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| insignia = |
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| landing_site = [[Santa Maria Airport (Azores)|Santa Maria Island]], [[Azores]], [[Portugal]] |
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| insignia_caption = |
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| insignia_size = 200px |
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<!--orbit parameters--> |
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| programme = [[Programme for Reusable In-orbit Demonstrator in Europe|PRIDE programme]] |
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<!--as science-related articles, SI units should be the principal units of measurement, however we usually use {{convert}} to display imperial units in parentheses after the initial values-->| orbit_reference = [[Geocentric orbit|Geocentric]] |
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| previous_mission = [[Intermediate eXperimental Vehicle|IXV]] |
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| orbit_regime = <!--high, low, medium, molniya, GSO - please link (e.g. [[Low Earth orbit|Low Earth]] - please don't use acronyms--> |
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| next_mission = |
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| orbit_longitude = <!--geosynchronous satellites only--> |
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| orbit_slot = <!--Designation of orbital position or slot, if not longitude (e.g plane and position of a GPS satellite)--> |
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| orbit_semimajor = <!--semimajor axis--> |
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| orbit_eccentricity = <!--orbital eccentricity--> |
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| orbit_periapsis = <!--periapsis altitude--> |
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| orbit_apoapsis = <!--apoapsis altitude--> |
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| orbit_inclination = <!--orbital inclination--> |
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| orbit_period = <!--time taken to complete an orbit--> |
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| orbit_RAAN = <!--right ascension of the ascending node--> |
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| orbit_arg_periapsis = <!--argument of perigee/periapsis--> |
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| orbit_mean_anomaly = <!--mean anomaly at epoch, only use in conjunction with an epoch value--> |
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| orbit_mean_motion = <!--mean motion of the satellite, usually measured in orbits per day--> |
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| orbit_repeat = <!--repeat interval/revisit time--> |
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| orbit_velocity = <!--speed at which the spacecraft was travelling at epoch - only use for spacecraft with low orbital eccentricity--> |
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| orbit_epoch = <!--the date at which the orbit parameters were correct--> |
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| orbit_rev_number = <!--revolution number--> |
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| apsis = <!--planet specific apsis term (eg. gee/helion/selene/etc - defaults to generic "apsis")--> |
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<!--transponder parameters-->| trans_band = [[S band]]<ref name='SR Factsheet'/> |
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| trans_frequency = <!--specific frequencies--> |
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| trans_bandwidth = <!--bandwidth--> |
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| trans_capacity = <!--capacity of the transponders--> |
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| trans_coverage = <!--area covered--> |
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| trans_TWTA = <!--TWTA output power--> |
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| trans_EIRP = <!--equivalent isotropic power--> |
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| trans_HPBW = <!--half-power beam width--> |
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| programme = [[Programme for Reusable In-orbit Demonstrator in Europe|PRIDE programme]] |
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| previous_mission = [[Intermediate eXperimental Vehicle|IXV]] |
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| next_mission = <!--mission insignia or patch--> |
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| insignia = <!--omit the "file" prefix--> |
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| insignia_caption = <!--image caption--> |
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| insignia_alt = <!--image alt text--> |
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| insignia_size = <!--include px/em; defaults to 180px--> |
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}} |
}} |
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The '''Space |
The '''Space Rider''' (Space '''R'''eusable '''I'''ntegrated '''D'''emonstrator for '''E'''urope '''R'''eturn) is a planned [[Uncrewed spacecraft|uncrewed]] [[Orbital spaceflight|orbital]] [[lifting body]] [[spaceplane]] aiming to provide the [[European Space Agency]] (ESA) with affordable and routine access to space.<ref>{{cite web|title=Space Rider |url=https://www.esa.int/Enabling_Support/Space_Transportation/Space_Rider|website=esa.int|publisher=ESA|access-date=19 December 2017}}</ref><ref name='Irving June2019'>[https://newatlas.com/esa-space-rider-reusable-spacecraft/60014/ ESA's reusable Space RIDER capsule would carry equipment to orbit and back] Michael Irving, ''New Atlas'' 6 June 2019</ref><ref name="esa-20190605" /> Contracts for construction of the vehicle and ground infrastructure were signed in December 2020.<ref name="ESADec20">{{cite news |url=https://www.esa.int/Enabling_Support/Space_Transportation/Space_Rider/ESA_signs_contracts_for_reusable_Space_Rider_up_to_maiden_flight |title=ESA signs contracts for reusable Space Rider up to maiden flight |publisher=ESA |date=9 December 2020 |access-date=9 April 2022}}</ref> Its [[maiden flight]] is currently scheduled for the third quarter of 2025.<ref name="nsf-20230826">{{cite web |last=Richards |first=Bella |url=https://www.nasaspaceflight.com/2023/08/space-rider-update/ |title=ESA's Space Rider likely to launch third quarter of 2025, program manager says |date=26 August 2023 |access-date=27 August 2023 |work=NASASpaceFlight}}</ref> |
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Development of Space |
Development of Space Rider is being led by the Italian [[Programme for Reusable In-orbit Demonstrator in Europe]] (PRIDE programme) in collaboration with ESA, and is the continuation of the [[Intermediate eXperimental Vehicle]] (IXV) experience,<ref name='Space Rider PRIDE'>[https://www.cira.it/en/space/accesso-allo-spazio-satelliti-ed-esplorazione/pride/Space%20Rider%20PRIDE Space RIDER PRIDE] [[Italian Aerospace Research Centre]] (CIRA) Accessed: 15 November 2018</ref><ref name='Rider Aeroshape 2017'/> launched on 11 February 2015. The cost of this phase, not including the launcher, is at least US$36.7 million.<ref name='bbc'/> At the ESA Ministerial Council held in Seville in November 2019, the development of the Space Rider was subscribed by the participating member states with an allocation of €195.73 million.<ref>{{Cite journal |last=DLR |date=28 November 2019 |title=Launcher Programme Subscription |url=https://www.dlr.de/rd/PortalData/28/Resources/dokumente/publikationen/countdown/Countdown39_hires.pdf |journal=DLR Countdown Newsletter Special Edition |pages=43}}</ref> |
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== History == |
== History == |
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The European Space Agency has a program called [[Future Launchers Preparatory Programme]] (FLPP), which made a call for submissions for a reusable spaceplane.<ref>[https://www.esa.int/Our_Activities/Space_Transportation/New_milestone_in_IXV_development New milestone in IXV development] ESA 15 September 2010</ref> One of the submissions was by the [[Italian Space Agency]], that presented their own [[Programme for Reusable In-orbit Demonstrator in Europe]] (PRIDE programme) which went ahead to develop the precursor called [[Intermediate eXperimental Vehicle]] (IXV) and the resulting Space Rider.<ref name='Space Rider PRIDE'/> |
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Funding was initially approved by the ESA in 2016, with the project to be led by the [[Italian Aerospace Research Centre]] (CIRA).<ref name='bbc'>{{cite news|last1=Coppinger|first1=Rob|title=The reusable spaceplane launched inside a rocket|url=http://www.bbc.com/future/story/20170411-the-reusable-spaceplane-launched-inside-a-rocket|access-date=19 December 2017|publisher=BBC|date=11 April 2017}}</ref> [[Thales Alenia Space]] and [[Lockheed Martin]] were tasked with completing the design by 2019. In November 2017, the ESA approved funding to Thales Alenia Space and [[Avio]] to build reentry and service modules, respectively.<ref name='sn_funding'>{{cite news|last1=Henry|first1=Caleb|title=ESA pours US$107 million into Vega E and a reusable spaceplane|url=http://spacenews.com/esa-pours-107-million-into-vega-e-and-a-reusable-spaceplane/|access-date=19 December 2017|publisher=SpaceNews|date=30 November 2017}}</ref> In late November 2019, the project was fully approved by ESA and will be funded mostly by [[Italy]],<ref>[https://spacenews.com/italy-satisfied-with-outcome-of-esa-ministerial/ Italy satisfied with outcome of ESA ministerial] Jeff Foust, ''SpaceNews'' 29 November 2019</ref><ref>[https://www.science.org/content/article/europe-gives-space-programs-big-boost Europe gives space programs a big boost] Daniel Clery, ''Science'' 28 November 2019</ref> and in December 2020, ESA signed contracts with co-prime contractors Thales Alenia Space and Avio for delivery of the Space Rider flight model, which in turn manage a consortium of more than 20 European companies operating in the space sector.<ref name='Space Rider PRIDE'/> The [[Italian Space Agency]] (ASI) subsequently contracted with [[Virgin Galactic]] for a suborbital research flight on [[SpaceShipTwo]] for research related to Space Rider.<ref>{{cite news|last1=Foust|first1=Jeff|title=Virgin Galactic signs SpaceShipTwo research flight deal with Italian space agency|url=http://spacenews.com/virgin-galactic-signs-spaceshiptwo-research-flight-deal-with-italian-space-agency/|access-date=19 December 2017|publisher=SpaceNews|date=19 December 2017}}</ref> The first flight of Space Rider is currently scheduled for the third quarter of 2025.<ref name="nsf-20230826"/> |
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The European Space Agency has a program called [[Future Launchers Preparatory Programme]] (FLPP), which made a call for submissions for a reusable spaceplane.<ref>[https://www.esa.int/Our_Activities/Space_Transportation/New_milestone_in_IXV_development New milestone in IXV development]. ESA. 15 September 2010.</ref> One of the submissions was by the [[Italian Space Agency]], that presented their own [[Programme for Reusable In-orbit Demonstrator in Europe]] (PRIDE program) which went ahead to develop the precursor called [[Intermediate eXperimental Vehicle]] (IXV) and the resulting Space RIDER.<ref name='Space Rider PRIDE'/> |
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In April 2018, ESA released an Announcement of Opportunity (AoO) to fly small payloads on Space Rider's maiden flight.<ref name="spaceRider">{{cite web |url=http://www.parabolicarc.com/2018/04/12/announcement-opportunity-fly-payloads-esas-space-rider/|title=Announcement of Opportunity to Fly Payloads on ESA's Space RIDER|publisher=Parabolic Arc|first=Doug |last=Messier|date=12 April 2018 |access-date=23 August 2018}}</ref> By June 2019, the project was advancing towards the [[Design review (U.S. government)|Critical Design Review]] (CDR) at the end of 2019.<ref name="esa-20190605" /> An industrial reorganisation followed the ESA Ministerial Council held in 2019. To deal with it a design bridging phase was put in place with the System CDR planned in mid-2022.<ref name="Space Rider programme manager update">{{cite web |last1=Parsonson |first1=Andrew |title=ESA Space Rider update from programme manager Dante Galli |url=https://europeanspaceflight.com/esa-space-rider-update-from-programme-manager-dante-galli/ |website=European Spaceflight |access-date=14 February 2022 |ref=Space Rider programme manager update |date=14 February 2022}}</ref> |
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Funding was initially approved by the ESA in 2016, with the project being led by the [[Italian Aerospace Research Centre]] (CIRA).<ref name='bbc'>{{cite news|last1=Coppinger|first1=Rob|title=The reusable spaceplane launched inside a rocket|url=http://www.bbc.com/future/story/20170411-the-reusable-spaceplane-launched-inside-a-rocket|accessdate=19 December 2017|publisher=BBC|date=11 April 2017}}</ref> Thales Alenia Space and [[Lockheed Martin]] were tasked with completing the design by 2019. In November 2017, the ESA provided funding to Thales Alenia Space and Avio to build reentry and service modules, respectively.<ref name='sn_funding'>{{cite news|last1=Henry|first1=Caleb|title=ESA pours $107 million into Vega E and a reusable spaceplane|url=http://spacenews.com/esa-pours-107-million-into-vega-e-and-a-reusable-spaceplane/|accessdate=19 December 2017|publisher=Space News|date=30 November 2017}}</ref> The European Space Agency has designated the [[Italian Aerospace Research Centre]] (CIRA) and [[Thales Alenia Space|Thales Alenia Space–Italia]] as co-prime contractors, which in turn manage a consortium of more than 20 European company operating in the space sector.<ref name='Space Rider PRIDE'/> The Italian Space Agency subsequently contracted with [[Virgin Galactic]] for a suborbital research flight on [[SpaceShipTwo]] for research related to Space RIDER.<ref>{{cite news|last1=Foust|first1=Jeff|title=Virgin Galactic signs SpaceShipTwo research flight deal with Italian space agency|url=http://spacenews.com/virgin-galactic-signs-spaceshiptwo-research-flight-deal-with-italian-space-agency/|accessdate=19 December 2017|publisher=Space News|date=19 December 2017}}</ref> |
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On completion of the two-month long maiden mission, Space Rider will return to [[Earth]] with the payloads stowed in its cargo bay.<ref name="spaceRider"/> This qualification flight of Space Rider will take place in 2025<ref name="nsf-20230826"/> followed by several missions to demonstrate a range of capabilities and orbits, before handing over the project to the private sector.<ref name='Pultarova 2018'>[https://spacenews.com/esa-targets-2021-for-space-rider-demo-flight/ ESA targets 2021 for Space RIDER demo flight] Tereza Pultarova, ''SpaceNews'' 13 November 2018</ref> |
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In April 2018, ESA released an Announcement of Opportunity to fly small payloads onboard Space Rider's maiden flight.<ref name="spaceRider">{{cite web |url=http://www.parabolicarc.com/2018/04/12/announcement-opportunity-fly-payloads-esas-space-rider/ |title=Announcement of Opportunity to Fly Payloads on ESA's Space Rider |work=Parabolic Arc |first=Doug |last=Messier |access-date=23 August 2018}}</ref> By June 2019, the project was advancing towards the Critical Design Review at the end of 2019.<ref name='SD June 2019'/> In late November 2019, the project was fully approved by ESA and will be funded mostly by Italy.<ref>[https://spacenews.com/italy-satisfied-with-outcome-of-esa-ministerial/ Italy satisfied with outcome of ESA ministerial.] Jeff Foust, ''Space News''. 29 November 2019.</ref><ref>[https://www.sciencemag.org/news/2019/11/europe-gives-space-programs-big-boost Europe gives space programs a big boost.] Daniel Clery, ''Science''. 28 November 2019.</ref> |
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By 2025, the ESA plans to privatise the Space Rider, with [[Arianespace]] the likely operator.<ref name='private'>{{cite news|last1=Coppinger|first1=Rob|title=ESA aims to privatize Space RIDER unmanned spaceplane by 2025|url=http://spacenews.com/esa-aims-to-privatize-space-rider-unmanned-spaceplane-by-2025/|access-date=19 December 2017|publisher=SpaceNews|date=22 June 2017}}</ref> |
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On June 20 2023, the Space Rider programme proceeded into Phase D of its development, allowing qualification and production to commence. |
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<ref name="Space Rider Spacecraft Reaches Key Milestone">{{cite web |last1=Parsonson |first1=Andrew |title=ESA's Space Rider Spacecraft Reaches Key Milestone |url=https://europeanspaceflight.com/esas-space-rider-spacecraft-reaches-key-milestone/ |website=European Spaceflight |access-date=12 September 2023 |ref=Space Rider Spacecraft Reaches Key Milestone |date=20 July 2023}}</ref> |
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== Design == |
== Design == |
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The Space Rider design inherits technology developed for the earlier [[Intermediate eXperimental Vehicle]], also within the [[Programme for Reusable In-orbit Demonstrator in Europe|Programme for Reusable In-orbit Demonstrator in Europe (PRIDE)]].<ref name='Space Rider PRIDE'/><ref name='bbc'/><ref name='sn_funding'/> The design team considered the trade-offs of using only a [[lifting body]] and also using optional wings or vertical fins.<ref name='Rider Aeroshape 2017'>[https://www.eucass.eu/doi/EUCASS2017-416.pdf Aeroshape Trade-Off and Aerodynamic Analysis of the Space RIDER Vehicle] M. Marini, M. Di Clemente, G. Guidotti, G. Rufolo, O. Lambert, N. Joiner, D. Charbonnier, M.V. Pricop, M.G. Cojocaru, D. Pepelea, C. Stoica, and A. Denaro, 7th European Conference for Aeronautics and Space Sciences (EUCASS) 2017</ref> It was then decided in 2017 that the design should optimise the internal volume of the [[Vega (rocket)|Vega]] [[Payload fairing|rocket fairing]], so its aerodynamic shape will be a simple lifting body, as tested on its predecessor, the [[Intermediate eXperimental Vehicle|IXV]].<ref name='Rider Aeroshape 2017'/> 3-axis control is achieved by the use of rear flaps.<ref name='Rider Aeroshape 2017'/> |
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Space Rider will have the potential to allow experiments in microgravity, such as exposure of materials to outer space and in-orbit validation of technologies, as well as deployment of small satellites.<ref name="spaceRider"/> |
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The Space RIDER design inherits technology developed for the earlier [[Intermediate eXperimental Vehicle]], also within the [[Programme for Reusable In-orbit Demonstrator in Europe|Programme for Reusable In-orbit Demonstrator in Europe (PRIDE)]].<ref name='Space Rider PRIDE'/><ref name='bbc' /><ref name='sn_funding' /> The design team considered the trade-offs of using only a [[lifting body]] and also using optional wings or vertical fins.<ref name='Rider Aeroshape 2017'>[https://www.eucass.eu/doi/EUCASS2017-416.pdf Aeroshape Trade-Off and Aerodynamic Analysis of the Space-Rider Vehicle]. (PDF) M. Marini, M. Di Clemente, G. Guidotti, G. Rufolo, O. Lambert, N. Joiner, D. Charbonnier, M.V. Pricop, M.G. Cojocaru, D. Pepelea, C. Stoica, and A. Denaro. 7th European Conference for Aeronautics and Space Sciences (EUCASS). 2017.</ref> It was then decided in 2017 that the design should optimise the internal volume of the Vega [[Payload fairing|rocket fairing]], so its aerodynamic shape will be a simple lifting body, as tested on its predecessor, the [[Intermediate eXperimental Vehicle|IXV]].<ref name='Rider Aeroshape 2017'/> 3-axis control is achieved by the use of rear flaps.<ref name='Rider Aeroshape 2017'/> |
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In 2019, some [[parafoil]] guided landing tests will{{update after|2020}} be performed by dropping a full-scale model from helicopters or balloons.<ref name='bbc'/> |
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Space RIDER will have the potential to allow experiments in microgravity, such as exposure of materials to outer space and in-orbit validation of technologies, as well as deployment of small satellites.<ref name="spaceRider"/> |
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Space Rider is designed to launch atop the [[Vega-C]] launch vehicle from [[Guiana Space Centre]].<ref name="nsf-20230826"/>The spacecraft is being designed to conduct missions up to two months long in [[low Earth orbit]] with up to 600 kg<ref name="Space Rider programme manager update" /> of cargo.<ref name="SR Factsheet">{{cite web |url=https://esamultimedia.esa.int/docs/space_transportation/Space_Rider_factsheet_HiRes_ok.pdf|title=SPACE RIDER|publisher=ESA|access-date=2018-11-16}}</ref><ref name='Descent Subsystem 2017'/> The re-entry module itself is a [[testbed]] for entry technologies as the IXV precursor was, so future improvements are envisioned,<ref name='Haya 2017'>[https://www.researchgate.net/publication/319980436_Mission_and_GNC_Challenges_from_IXV_to_Space_Rider Mission and GNC Challenges from IXV to Space RIDER] Rodrigo Haya Ramos, Davide Bonetti, ''Research Gate'' Conference: Fourteenth International Planetary Probe Workshop, The Hague, The Netherlands June 2017</ref> including point-to-point flights, even "space tourism".<ref name='bbc'/> |
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In 2019, some [[parafoil]] guided landing tests will be performed by dropping a full-scale model from helicopters or balloons.<ref name='bbc'/> |
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Activities for Phase-B2/C, covering the [[Design review (U.S. government)|Preliminary Design Review]] (PDR) started on 25 January 2018,<ref>[https://space.skyrocket.de/doc_sdat/space-rider.htm Space RIDER] Gunter's Space Page</ref> and the [[Design review (U.S. government)|Critical Design Review]] (CDR) begin in late 2019.<ref name="esa-20190605" /> An industrial reorganisation followed the ESA Ministerial Council held in 2019. To deal with it a design bridging phase was put in place with the System CDR planned in mid-2022.<ref name="Space Rider programme manager update" /> |
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Space RIDER is designed to launch atop the [[Vega-C]] rocket,<ref name='private'/><ref name="SR Factsheet"> {{cite web |url=https://esamultimedia.esa.int/docs/space_transportation/Space_Rider_factsheet_HiRes_ok.pdf |title=SPACE RIDER |publisher=[[ESA]] |access-date=2018-11-16}}</ref> and its maiden flight will be from the French Guiana in 2022, to land on a runway on [[Santa Maria Island]], in the [[Azores]].<ref name='private' /> The spacecraft is being designed to conduct missions up to two months long in [[low Earth orbit]] with up to 800 kg of cargo.<ref name='SR Factsheet'/><ref name='Descent Subsystem 2017'/> The re-entry module itself is a [[testbed]] for entry technologies as the IXV precursor was, so future improvements are envisioned,<ref name='Haya 2017'>[https://www.researchgate.net/publication/319980436_Mission_and_GNC_Challenges_from_IXV_to_Space_Rider Mission and GNC Challenges from IXV to Space Rider.] Rodrigo Haya Ramos, Davide Bonetti. ''Research Gate''. Conference: Fourteenth International Planetary Probe Workshop, At The Hague, The Netherlands. June 2017.</ref> including point-to-point flights, even "space tourism".<ref name='bbc'/> |
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=== Service module === |
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Activities for Phase-B2/C, covering the Preliminary Design Review started on 25 January 2018,<ref>[https://space.skyrocket.de/doc_sdat/space-rider.htm Space Rider]. ''Gunter's Space Page.</ref> and the Critical Design Review begin in late 2019.<ref name='SD June 2019'/> |
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Space Rider's service module is a modified version of the [[Vega (rocket)#Attitude Vernier Upper Module (AVUM)|Vega-C AVUM+]], which will extend the time that can be spent in orbit by at least two months before Space Rider returns with its cargo to Earth to land on the ground.<ref name='PhysOrg Nov 2018'>[https://phys.org/news/2018-11-focus-vega.html Focus on Vega developments] European Space Agency Published by ''PhysOrg'' on 26 November 2018</ref> The service module will provide power, [[Spacecraft attitude control|attitude control]] and deorbit capability, and it will separate from the spacecraft just before [[Atmospheric entry|atmospheric reentry]].<ref name="esa-20190605">{{cite web |url=https://www.esa.int/Enabling_Support/Space_Transportation/Space_Rider_Europe_s_reusable_space_transport_system |title=Space Rider: Europe's reusable space transport system |work=[[ESA]] |date=5 June 2019 |access-date=9 April 2022}}</ref> |
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=== |
=== Landing === |
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[[File:X-38 Landing (cropped).jpg|thumb|upright=1.0|left|Space Rider will use a controllable [[parafoil]] for landing, as used by the [[NASA X-38]] in 1999.]] |
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Space Rider's service module is a modified version of the [[Vega (rocket)#Attitude Vernier Upper Module, AVUM|Vega-C AVUM+]], which will extend the time that can be spent in orbit by at least two months before Space RIDER returns with its cargo to Earth to land on the ground.<ref name='PhysOrg Nov 2018'>[https://phys.org/news/2018-11-focus-vega.html Focus on Vega developments]. European Space Agency. Published by ''PhysOrg'' on 26 November 2018.</ref> The service module will provide power, [[attitude control]] and deorbit capability, and it will separate from the spacecraft just before atmospheric reentry.<ref>[https://www.esa.int/Our_Activities/Space_Transportation/Space_Rider_Europe_s_reusable_space_transport_system/(print) Space Rider: Europe's reusable space transport system.] 5 June 2019. ESA.</ref> |
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Upon [[atmospheric entry]], the lifting body shape will decelerate the spacecraft to subsonic speed (below [[Mach number|Mach]] 0.8), when one or two [[drogue parachute]] will be deployed at about 15–12 km altitude to slow it further (to Mach 0.18 - 0.22)<ref name='Descent Subsystem 2017'>[https://www.eucass.eu/doi/EUCASS2017-624.pdf Conceptual Design of the Descent Subsystem for the Safe Atmospheric Re-Entry Flight of Space RIDER] {{doi|10.13009/EUCASS2017-624}} Alessandro Balossino, Luciano Battocchio, Matteo Giacci, Giuseppe Guidotti, Giuseppe Rufolo, Angelo Denaro, Nicola Paletta, Centro Italiano Ricerche Aerospaziali 2017</ref> Then, a controllable gliding parachute called [[parafoil]] will be deployed to begin the controlled descent phase for a nearly horizontal touchdown (≈35 m/s) using no wheels.<ref name='Descent Subsystem 2017'/> The landing concept is similar to the [[NASA X-38]] landing system.<ref name='Descent Subsystem 2017'/> |
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===Landing=== |
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[[File:X-38 Landing (cropped).jpg|thumb|left|Space RIDER will use a controllable [[parafoil]] for landing, as used by the [[NASA X-38]] in 1999.]] |
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Upon [[atmospheric entry]], the lifting body shape will decelerate the spacecraft to subsonic speed (below Mach 0.8), when one or two [[drogue parachute]] will be deployed at about 15-12 km altitude to slow it further (to Mach 0.18 - 0.22)<ref name='Descent Subsystem 2017'> [https://www.eucass.eu/doi/EUCASS2017-624.pdf Conceptual Design of the Descent Subsystem for the Safe Atmospheric Re-Entry Flight of Space Rider]. (PDF) {{doi|10.13009/EUCASS2017-624}} Alessandro Balossino, Luciano Battocchio, Matteo Giacci, Giuseppe Guidotti, Giuseppe Rufolo, Angelo Denaro, Nicola Paletta. Centro Italiano Ricerche Aerospaziali. 2017.</ref> Then, a controllable gliding parachute called [[parafoil]] will be deployed to begin the controlled descent phase for a nearly horizontal touchdown (≈35 m/s) using no wheels.<ref name='Descent Subsystem 2017'/> The landing concept is similar to the [[NASA X-38]] landing system.<ref name='Descent Subsystem 2017'/> |
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For orbits with inclination > 37°, landings will be performed at the Portuguese [[Santa Maria Airport (Azores)|Santa Maria Island]] in the Azores archipelago. For lower inclination missions, [[Guiana Space Centre|French Guiana]] and Dutch [[Curaçao]] are being considered.<ref name='SR Factsheet'/> |
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The baseline landing site is the [[Guiana Space Centre]].<ref name="Space Rider programme manager update" /> For orbits with [[Orbital inclination|inclination]] >37°, landings could be performed at the Portuguese [[Santa Maria Airport (Azores)|Santa Maria Island]] in the Azores archipelago. |
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{{clear}} |
{{clear}} |
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| Line 119: | Line 90: | ||
| Crew || None (robotic only) |
| Crew || None (robotic only) |
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|- |
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| Length || ≥ {{ |
| Length || ≥ {{cvt|8.044|m}}<ref name='Space Rider programme manager update'/> |
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|- |
|- |
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| RM Length || ≥ {{cvt|4.6|m}}<ref name='Space Rider programme manager update'/> |
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| Payload volume || ≥ 1.2 m<sup>3</sup> (1,200 liters) |
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|- |
|- |
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| |
| AOM Length || ≥ {{cvt|3.5|m}}<ref name='Space Rider programme manager update'/> |
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|- |
|- |
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| Payload volume || ≥ 1.2 m<sup>3</sup> (1200 liters) |
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| Payload mass || {{convert|800|kg|lbs|abbr=on|sigfig=3}}<ref name='SR Factsheet'/><ref name='Descent Subsystem 2017'/> |
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|- |
|- |
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| |
| Mass || Max. {{cvt|4900|kg}}<ref name='Space Rider programme manager update'/> |
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|- |
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| |
| Payload mass || {{cvt|620|kg}}<ref name='Space Rider programme manager update'/> |
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|- |
|- |
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| |
| Flight time || At least 60 days<ref name='PhysOrg Nov 2018'/> |
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|- |
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| Landing |
| Landing mass || {{cvt|2850|kg}}<ref name='Space Rider programme manager update'/> |
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|- |
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| Landing accuracy || 150 m<ref name='Descent Subsystem 2017'/> |
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| Landing speeds || Horizontal: 35 m/s; vertical: 3 m/s<ref name='Descent Subsystem 2017'/> |
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| Parachute deployment shock || < [[g-force|4 g]]<ref name='Descent Subsystem 2017'/> |
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| Power || 600 [[watt]]s<ref name='SR Factsheet'/> |
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| Reusability || 6 flights<ref name='SR Factsheet'/> |
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| Turnaround time || <6 months<ref name='SR Factsheet'/> |
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|} |
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==See also== |
== See also == |
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{{Portal|Spaceflight}} |
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* [[Boeing X-37]], a winged spaceplane by the U.S. Air Force |
* [[Boeing X-37]], a winged spaceplane by the U.S. Air Force |
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* [[RLV Technology Demonstration Programme|RLV-TD]], similar project being developed by [[ISRO]] |
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* [[Dream Chaser]], a private lifting body spaceplane |
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* [[Dream Chaser]], a private lifting body spaceplane developed by [[Sierra Space|Sierra Nevada Corporation]] |
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* [[Hermes (spaceplane)]], CNES/ESA spaceplane concept from 1975 |
* [[Hermes (spaceplane)]], CNES/ESA spaceplane concept from 1975 |
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* [[SUSIE]], a 2022 ArianeGroup proposal for a reusable, crewed, spacecraft |
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* [[List of spaceplanes]] |
* [[List of spaceplanes]] |
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== External links == |
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* [https://esamultimedia.esa.int/docs/edu/Space_Rider_Payload_Cargo_Bay_User_Guide.pdf Official User Guide], ESA. v2.0, December 2023 |
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== References == |
== References == |
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{{Reflist}} |
{{Reflist}} |
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[[Category:Spaceplanes]] |
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[[Category:Proposed European Space Agency spacecraft]] |
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[[Category:2022 in spaceflight]] |
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[[Category:Proposed spacecraft]] |
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{{Spaceplanes}} |
{{Spaceplanes}} |
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{{Reusable launch systems}} |
{{Reusable launch systems}} |
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{{Future spaceflights}} |
{{Future spaceflights}} |
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[[Category:Spaceplanes]] |
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[[Category:Proposed European Space Agency spacecraft]] |
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[[Category:2024 in spaceflight]] |
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[[Category:Proposed spacecraft]] |
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[[Category:Reusable spacecraft]] |
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Latest revision as of 15:57, 25 May 2024
 Artist's rendering of Space Rider spaceship | |
| Names | Space Reusable Integrated Demonstrator for Europe Return [2] |
|---|---|
| Mission type | Reusable spaceplane |
| Operator | ESA |
| Website | m |
| Mission duration | 60 days (planned) |
| Spacecraft properties | |
| Spacecraft | Space RIDER |
| Spacecraft type | Lifting body spaceplane |
| Manufacturer | Avio and Thales Alenia Space[1] |
| Launch mass | Approx. 4900 kg (Full stack AOM + RM, including fluids and propellants)[1] |
| Landing mass | up to 2850kg[1] |
| Payload mass | 600 kg (1,300 lb)[1] |
| Dimensions | Length: 8.044 m (26.39 ft) (Full stack AOM + RM)[1] |
| Power | 600 watts[3] |
| Start of mission | |
| Launch date | Q3 2025 (planned)[4] |
| Rocket | Vega-C |
| Launch site | Guiana Space Centre |
| Contractor | Arianespace |
| End of mission | |
| Landing site | Guiana Space Centre[1] |
| Orbital parameters | |
| Reference system | Geocentric |
| Regime | Low Earth orbit |
The Space Rider (Space Reusable Integrated Demonstrator for Europe Return) is a planned uncrewed orbital lifting body spaceplane aiming to provide the European Space Agency (ESA) with affordable and routine access to space.[5][6][7] Contracts for construction of the vehicle and ground infrastructure were signed in December 2020.[8] Its maiden flight is currently scheduled for the third quarter of 2025.[4]
Development of Space Rider is being led by the Italian Programme for Reusable In-orbit Demonstrator in Europe (PRIDE programme) in collaboration with ESA, and is the continuation of the Intermediate eXperimental Vehicle (IXV) experience,[2][9] launched on 11 February 2015. The cost of this phase, not including the launcher, is at least US$36.7 million.[10] At the ESA Ministerial Council held in Seville in November 2019, the development of the Space Rider was subscribed by the participating member states with an allocation of €195.73 million.[11]
History
[edit]The European Space Agency has a program called Future Launchers Preparatory Programme (FLPP), which made a call for submissions for a reusable spaceplane.[12] One of the submissions was by the Italian Space Agency, that presented their own Programme for Reusable In-orbit Demonstrator in Europe (PRIDE programme) which went ahead to develop the precursor called Intermediate eXperimental Vehicle (IXV) and the resulting Space Rider.[2]
Funding was initially approved by the ESA in 2016, with the project to be led by the Italian Aerospace Research Centre (CIRA).[10] Thales Alenia Space and Lockheed Martin were tasked with completing the design by 2019. In November 2017, the ESA approved funding to Thales Alenia Space and Avio to build reentry and service modules, respectively.[13] In late November 2019, the project was fully approved by ESA and will be funded mostly by Italy,[14][15] and in December 2020, ESA signed contracts with co-prime contractors Thales Alenia Space and Avio for delivery of the Space Rider flight model, which in turn manage a consortium of more than 20 European companies operating in the space sector.[2] The Italian Space Agency (ASI) subsequently contracted with Virgin Galactic for a suborbital research flight on SpaceShipTwo for research related to Space Rider.[16] The first flight of Space Rider is currently scheduled for the third quarter of 2025.[4]
In April 2018, ESA released an Announcement of Opportunity (AoO) to fly small payloads on Space Rider's maiden flight.[17] By June 2019, the project was advancing towards the Critical Design Review (CDR) at the end of 2019.[7] An industrial reorganisation followed the ESA Ministerial Council held in 2019. To deal with it a design bridging phase was put in place with the System CDR planned in mid-2022.[1]
On completion of the two-month long maiden mission, Space Rider will return to Earth with the payloads stowed in its cargo bay.[17] This qualification flight of Space Rider will take place in 2025[4] followed by several missions to demonstrate a range of capabilities and orbits, before handing over the project to the private sector.[18]
By 2025, the ESA plans to privatise the Space Rider, with Arianespace the likely operator.[19]
On June 20 2023, the Space Rider programme proceeded into Phase D of its development, allowing qualification and production to commence. [20]
Design
[edit]The Space Rider design inherits technology developed for the earlier Intermediate eXperimental Vehicle, also within the Programme for Reusable In-orbit Demonstrator in Europe (PRIDE).[2][10][13] The design team considered the trade-offs of using only a lifting body and also using optional wings or vertical fins.[9] It was then decided in 2017 that the design should optimise the internal volume of the Vega rocket fairing, so its aerodynamic shape will be a simple lifting body, as tested on its predecessor, the IXV.[9] 3-axis control is achieved by the use of rear flaps.[9]
Space Rider will have the potential to allow experiments in microgravity, such as exposure of materials to outer space and in-orbit validation of technologies, as well as deployment of small satellites.[17]
In 2019, some parafoil guided landing tests will[needs update] be performed by dropping a full-scale model from helicopters or balloons.[10]
Space Rider is designed to launch atop the Vega-C launch vehicle from Guiana Space Centre.[4]The spacecraft is being designed to conduct missions up to two months long in low Earth orbit with up to 600 kg[1] of cargo.[3][21] The re-entry module itself is a testbed for entry technologies as the IXV precursor was, so future improvements are envisioned,[22] including point-to-point flights, even "space tourism".[10]
Activities for Phase-B2/C, covering the Preliminary Design Review (PDR) started on 25 January 2018,[23] and the Critical Design Review (CDR) begin in late 2019.[7] An industrial reorganisation followed the ESA Ministerial Council held in 2019. To deal with it a design bridging phase was put in place with the System CDR planned in mid-2022.[1]
Service module
[edit]Space Rider's service module is a modified version of the Vega-C AVUM+, which will extend the time that can be spent in orbit by at least two months before Space Rider returns with its cargo to Earth to land on the ground.[24] The service module will provide power, attitude control and deorbit capability, and it will separate from the spacecraft just before atmospheric reentry.[7]
Landing
[edit].jpg)
Upon atmospheric entry, the lifting body shape will decelerate the spacecraft to subsonic speed (below Mach 0.8), when one or two drogue parachute will be deployed at about 15–12 km altitude to slow it further (to Mach 0.18 - 0.22)[21] Then, a controllable gliding parachute called parafoil will be deployed to begin the controlled descent phase for a nearly horizontal touchdown (≈35 m/s) using no wheels.[21] The landing concept is similar to the NASA X-38 landing system.[21]
The baseline landing site is the Guiana Space Centre.[1] For orbits with inclination >37°, landings could be performed at the Portuguese Santa Maria Island in the Azores archipelago.
Preliminary specifications
[edit]| Space Rider | Parameter/units |
|---|---|
| Crew | None (robotic only) |
| Length | ≥ 8.044 m (26.39 ft)[1] |
| RM Length | ≥ 4.6 m (15 ft)[1] |
| AOM Length | ≥ 3.5 m (11 ft)[1] |
| Payload volume | ≥ 1.2 m3 (1200 liters) |
| Mass | Max. 4,900 kg (10,800 lb)[1] |
| Payload mass | 620 kg (1,370 lb)[1] |
| Flight time | At least 60 days[24] |
| Landing mass | 2,850 kg (6,280 lb)[1] |
| Landing accuracy | 150 m[21] |
| Landing speeds | Horizontal: 35 m/s; vertical: 3 m/s[21] |
| Parachute deployment shock | < 4 g[21] |
| Power | 600 watts[3] |
| Reusability | 6 flights[3] |
| Turnaround time | <6 months[3] |
See also
[edit]
- Boeing X-37, a winged spaceplane by the U.S. Air Force
- RLV-TD, similar project being developed by ISRO
- Dream Chaser, a private lifting body spaceplane developed by Sierra Nevada Corporation
- Hermes (spaceplane), CNES/ESA spaceplane concept from 1975
- SUSIE, a 2022 ArianeGroup proposal for a reusable, crewed, spacecraft
- List of spaceplanes
External links
[edit]- Official User Guide, ESA. v2.0, December 2023
References
[edit]- ^ a b c d e f g h i j k l m n o p q Parsonson, Andrew (14 February 2022). "ESA Space Rider update from programme manager Dante Galli". European Spaceflight. Retrieved 14 February 2022.
- ^ a b c d e Space RIDER PRIDE Italian Aerospace Research Centre (CIRA) Accessed: 15 November 2018
- ^ a b c d e "SPACE RIDER" (PDF). ESA. Retrieved 2018-11-16.
- ^ a b c d e Richards, Bella (26 August 2023). "ESA's Space Rider likely to launch third quarter of 2025, program manager says". NASASpaceFlight. Retrieved 27 August 2023.
- ^ "Space Rider". esa.int. ESA. Retrieved 19 December 2017.
- ^ ESA's reusable Space RIDER capsule would carry equipment to orbit and back Michael Irving, New Atlas 6 June 2019
- ^ a b c d "Space Rider: Europe's reusable space transport system". ESA. 5 June 2019. Retrieved 9 April 2022.
- ^ "ESA signs contracts for reusable Space Rider up to maiden flight". ESA. 9 December 2020. Retrieved 9 April 2022.
- ^ a b c d Aeroshape Trade-Off and Aerodynamic Analysis of the Space RIDER Vehicle M. Marini, M. Di Clemente, G. Guidotti, G. Rufolo, O. Lambert, N. Joiner, D. Charbonnier, M.V. Pricop, M.G. Cojocaru, D. Pepelea, C. Stoica, and A. Denaro, 7th European Conference for Aeronautics and Space Sciences (EUCASS) 2017
- ^ a b c d e Coppinger, Rob (11 April 2017). "The reusable spaceplane launched inside a rocket". BBC. Retrieved 19 December 2017.
- ^ DLR (28 November 2019). "Launcher Programme Subscription" (PDF). DLR Countdown Newsletter Special Edition: 43.
- ^ New milestone in IXV development ESA 15 September 2010
- ^ a b Henry, Caleb (30 November 2017). "ESA pours US$107 million into Vega E and a reusable spaceplane". SpaceNews. Retrieved 19 December 2017.
- ^ Italy satisfied with outcome of ESA ministerial Jeff Foust, SpaceNews 29 November 2019
- ^ Europe gives space programs a big boost Daniel Clery, Science 28 November 2019
- ^ Foust, Jeff (19 December 2017). "Virgin Galactic signs SpaceShipTwo research flight deal with Italian space agency". SpaceNews. Retrieved 19 December 2017.
- ^ a b c Messier, Doug (12 April 2018). "Announcement of Opportunity to Fly Payloads on ESA's Space RIDER". Parabolic Arc. Retrieved 23 August 2018.
- ^ ESA targets 2021 for Space RIDER demo flight Tereza Pultarova, SpaceNews 13 November 2018
- ^ Coppinger, Rob (22 June 2017). "ESA aims to privatize Space RIDER unmanned spaceplane by 2025". SpaceNews. Retrieved 19 December 2017.
- ^ Parsonson, Andrew (20 July 2023). "ESA's Space Rider Spacecraft Reaches Key Milestone". European Spaceflight. Retrieved 12 September 2023.
- ^ a b c d e f g Conceptual Design of the Descent Subsystem for the Safe Atmospheric Re-Entry Flight of Space RIDER doi:10.13009/EUCASS2017-624 Alessandro Balossino, Luciano Battocchio, Matteo Giacci, Giuseppe Guidotti, Giuseppe Rufolo, Angelo Denaro, Nicola Paletta, Centro Italiano Ricerche Aerospaziali 2017
- ^ Mission and GNC Challenges from IXV to Space RIDER Rodrigo Haya Ramos, Davide Bonetti, Research Gate Conference: Fourteenth International Planetary Probe Workshop, The Hague, The Netherlands June 2017
- ^ Space RIDER Gunter's Space Page
- ^ a b Focus on Vega developments European Space Agency Published by PhysOrg on 26 November 2018