RemoveDEBRIS

RemoveDEBRIS is a satellite research project intending to demonstrate various space debris removal technologies. The mission is led by the Surrey Space Centre from the University of Surrey with the satellite's platform manufactured by Surrey Satellite Technology Ltd (SSTL). Partners on the project include Airbus, ArianeGroup, Swiss Center for Electronics and Microtechnology, Inria, Innovative Solutions In Space, Surrey Space Centre, and Stellenbosch University.

RemoveDEBRIS
Mission typeDebris removal tech demo
OperatorSurrey Satellite Technology
COSPAR ID1998-067NT
SATCAT no.43510
WebsiteRemoveDEBRIS mission at Surrey Space Centre
Spacecraft properties
ManufacturerSurrey Satellite Technology
Launch mass100 kilograms (220 lb)
Payload mass40 kilograms (88 lb)
Dimensions65 cm × 65 cm × 72 cm
(26 in × 26 in × 28 in)
Start of mission
Launch date2 April 2018, 20:30:38 (2018-04-02UTC20:30:38) UTC[1]
RocketFalcon 9 FT
Launch siteCape Canaveral SLC-40
ContractorSpaceX
Deployed fromJapanese Experiment Module aboard the ISS
 

Mission overview

Rather than engaging in active debris removal (ADR) of real space debris, the RemoveDEBRIS mission plan is to test the efficacy of several ADR technologies on mock targets in low Earth orbit. In order to complete its planned experiments the platform is equipped with a net, a harpoon, a laser ranging instrument, a dragsail, and two CubeSats (miniature research satellites).[2]

The experiments are as follows:

  • Net experiment - One of the CubeSats, called DebrisSat 1, will deploy a balloon meant to simulate a piece of space debris. From a short distance away, the RemoveDEBRIS satellite will attempt to capture the debris in a net and then manoeuvre this package to fall into Earth's atmosphere and burn up.[3]
  • Vision-based navigation - The other CubeSat, called DebrisSat 2, will be released and the RemoveDEBRIS satellite will undergo a series of manoeuvres in order to obtain data and images using both lidar and optical cameras.[3]
  • Harpoon and deployable target - A harpoon connected by a tether will be fired at a plate attached to an arm extending from the RemoveDEBRIS platform itself.
  • Dragsail - After the conclusion of the other experiments the satellite will deploy a large sail, which will act in a similar fashion to an air brake. The dragsail will bring RemoveDEBRIS from the relatively low orbital altitude of the space station into the planet's atmosphere to safely disintegrate.

Design

Platform

The RemoveDEBRIS platform was based on a SSTL X50 Structure that had been customised for deployment from the International Space Station. The platform hosted all the experimental payloads as well as providing power, data and control for the mission. A high degree of autonomy was built in using time-tagged commands to allow experiments to be run out of sight of the groundstation.[4]

CubeSats

DebrisSat 1

The DebrisSat 1 (DS-1) was built by engineers and students at the University of Surrey and was based on a 2U CubeSat measuring 100 × 100 × 227 mm. 1U of the satellite contained the power and avionics to power the payload. The payload contained an inflatable designed to provide a large target area for the next experiment. A Cold Gas Generator (CGG) was used to inflate six aluminium booms to provide a frame. Small aluminium sails attached to the end of the booms would then be deployed during the inflation.[4]

DebrisSat 2

The DebrisSat 2 (DS-2, COSPAR: 1998-067PR) is also based on a 2U CubeSat with two deployable panels solar panels and communications. The spacecraft contained a GPS receiver as well as an inter-satellite link to provide location and attitude data back to the platform to assess the VBN camera performance. The avionics were based on the QB50 avionics stack developed by the Surrey Space Centre and Electronic Systems Laboratory (ESL) at Stellenboch University. In addition the spacecraft also tested out a low-cost UART camera which was able to beam back pictures back to the platform as it separated.[4] DebrisSat 2 deorbited 30 May 2020.

Timeline

Launch

After final system end-to-end and environmental testing, the RemoveDebris spacecraft was shipped to Nanoracks in Houston and then onto the launch site at the Kennedy Space Centre in Florida. The spacecraft was placed in an ISS cargo transfer bag and placed in the pressurised section of the CRS-14 SpaceX Dragon Spacecraft. The Dragon resupply mission with RemoveDEBRIS onboard was launched 2 April 2018, arriving at the ISS on 4 April.[5]

The RemoveDebris spacecraft was unloaded from the capsule. NASA Astronauts Drew Feustel and Ricky Arnold removing the platform handling panels, completed final preparation and loaded the satellite into the Japanese Experiment Module (JEM) airlock on 6 June 2018. An airlock cycle was performed on 19 June 2018 and RemoveDEBRIS moved outside the JEM via the airlock slide table. The spacecraft was grasped by the Kaber interface on the Mobile Servicing System Special Purpose Dexterous Manipulator (MSS SPDM) and placed in the deployment position.[6]

Deployment

Deployment of the satellite from the station's Kibo module via robotic Canadarm-2 took place on 20 June 2018.[3][7] At approximately 100 kg, RemoveDEBRIS is the largest satellite to have ever been deployed from the ISS.[8] The platform contained two CubeSat deployers from ISISpace. The full lifespan of the mission from launch to re-entry is estimated at 1.5 years.[9]

Net experiment

On 16 September 2018, it demonstrated its ability to use a net to capture a deployed simulated target.[10]

VBN experiment

On 28 October 2018, DebrisSat 2 was deployed at 06:15UTC. The VBN camera on the platform took 361 images of the spacecraft crucial to determining the performance of the camera system. Position and attitude data from DebrisSat 2 was transmitted back to the platform providing ground truth for the experiment. DebrisSat 2 also forwarded low resolution photos of the deployment to the platform from its own vantage point.[11]

Harpoon experiment

On 8 February 2019, SSTL demonstrated the RemoveDEBRIS harpoon which was fired at a speed of 20 metres per second penetrating a simulated target extended from the satellite on a 1.5 m (4 ft 11 in) boom.[12]

Dragsail experiment

The deployment of the dragsail was targeted for 4th March. After the deploy command had been sent, no expected changes in spacecraft behaviour were detected. After an investigation it was determined that the most likely result was a partial or failed deployment of the inflatable boom which prevented the sail from deploying. Lessons learnt from this attempt were put into practice for two new dragsails that were deployed on the Spaceflight SSO-A mission.[11]

gollark: My internet connection does seem to be stable now, at least, but with a 35% lower download speed than usual.
gollark: Azure apparently had a 775% increase in demand or something crazy like that.
gollark: It's probably under heavier load than usual.
gollark: The internet connection here has become slow and unstable. I hope this is fixed soon because having to stay at home without even working interweb connectivity would be horrible.
gollark: Also, OpenSSL still had Heartbleed for ages, sooo...

See also

References

  1. Clark, Stephen (2 April 2018). "Launch Log". Spaceflight Now. Archived from the original on 5 April 2018.
  2. Aglietti, Guglielemo (28 August 2019). "The active space debris removal mission RemoveDebris. Part 2: In Orbit Operations" (PDF). Acta Astronautica. doi:10.1016/j.actaastro.2019.09.001.
  3. Clark, Stephen (1 April 2018). "Eliminating space junk could take step toward reality with station cargo launch". Spaceflight Now. Retrieved 6 April 2018.
  4. Forshaw, Jason (2016). "RemoveDEBRIS: An in-orbit active debris removal demonstration mission" (PDF). Acta Astronautica. 127: 448–463. Bibcode:2016AcAau.127..448F. doi:10.1016/j.actaastro.2016.06.018.
  5. Clark, Stephen (4 April 2018). "Dragon cargo capsule reaches space station for second time". Spaceflight Now. Retrieved 4 April 2018.
  6. Taylor, Ben (October 2018). "RemoveDebris Preliminary Mission Results". IAC 2018 - 69th International Astronautical Congress.
  7. "1st Satellite Built to Harpoon Space Junk for Disposal Begins Test Flight". Space.com. Retrieved 22 June 2018.
  8. Geib, Claudia (3 April 2018). "An Experimental Space Junk Collector Is On Its Way to the ISS". Futurism. Retrieved 6 April 2018.
  9. "RemoveDEBRIS". University of Surrey. Retrieved 18 April 2018.
  10. "Net successfully snares space debris | University of Surrey". www.surrey.ac.uk. Retrieved 24 September 2018.
  11. Aglietti, Guglielemo (28 August 2019). "The active space debris removal mission RemoveDebris. Part 2: In Orbit Operations" (PDF). Acta Astronautica. doi:10.1016/j.actaastro.2019.09.001.
  12. "RemoveDEBRIS: success for harpoon experiment | Surrey Satellite Technology". www.sstl.co.uk. Retrieved 18 February 2019.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.