CubeSail

CubeSail is a proposed nanosatellite project by the Surrey Space Centre (SSC) in England. The spacecraft is to be a 3U CubeSat propelled by a 25 m² solar sail. The project is financed and technically supported by aerospace manufacturers Astrium and Surrey Satellite Technology.

CubeSail
Mission typeTechnology
Websitewww.surrey.ac.uk/surrey-space-centre/missions/cubesail
Mission duration1 year (planned)
Spacecraft properties
Spacecraft type3U CubeSat
ManufacturerSurrey Satellite Technology / Astrium
BOL mass3 kg (6.6 lb)[1]
DimensionsSail: 5 m × 5 m
Bus: 10 cm x 10 cm x 34 cm
Start of mission
Launch dateTBD
Orbital parameters
Reference systemGeocentric
RegimeLow Earth orbit
 

The first successful solar sail spacecraft was the Japanese IKAROS mission, launched on 21 May 2010.[2][3][4]

Overview

The project is further developing technologies first tested on their STRaND-1 CubeSat, launched in February 2013.[5] CubeSail will deploy a 25 m2 solar sail, which will be used to demonstrate the propulsive effect of solar radiation pressure and the de-orbiting capabilities of the sail as a drag augmentation device.[6][7]

Attitude control

CubeSail will be a three-axis stabilised solar sail satellite.[5] Attitude control (orientation) is necessary because the orientation of the sail relative to the Sun direction will determine the propulsion force. Full three-axis attitude control will be performed by means of a centre of mass/centre of pressure offset technique, complemented by three magnetorquers and a reaction wheel.[5] Attitude control can be enhanced by using the solar radiation pressure force on the sail to generate rotation torques.[8] The radiation pressure can also be used to induce a change of altitude as well as orbital inclination.[8]

The spacecraft will be deployed in a low Earth orbit (800 km altitude) on a Sun-synchronous orbit.[8]

Configuration

The CubeSail nanosatellite is a CubeSat of the 3U format.[9] The satellite bus occupies approximately 1U, and the remaining 2U house the two-axis translation stage and sail-deployment subsystem.[9]

Objectives

The objectives of the CubeSail mission are to demonstrate the concept of solar sail propulsion of a 3-axis stabilised 25 m2 solar sail for one year while in low Earth orbit; and to demonstrate the use of gossamer structures (very light gauze-like fabric) as a drag augmentation device for satellite de-orbiting.[5]

gollark: DO NOT GO ABOVE 2 INPUTS.
gollark: Massimo: safe limit is 2 inputs.
gollark: Stop nanodiscombobulating yourself.
gollark: <@154361670188138496> We can just make another standard.
gollark: DICTATORSHIP!

See also

References

  1. CubeSail: A low cost CubeSat based solar sail demonstration mission. V. Lappas, et al. Advances in Space Research. vol 48, issue, 11. 1 December 2011.pp: 1890-1901. doi:10.1016/j.asr.2011.05.033
  2. Stephen Clark (20 May 2010). "H-2A Launch Report – Mission Status Center". Spaceflight Now. Retrieved 21 May 2010.
  3. Samantha Harvey (21 May 2010). "Solar System Exploration: Missions: By Target: Venus: Future: Akatsuki". NASA. Retrieved 21 May 2010.
  4. "Launch Day of the H-IIA Launch Vehicle No. 17(H-IIA F17)". JAXA. 3 March 2010. Retrieved 7 May 2010.
  5. "CUBESAIL". University of Surrey. Surrey Space Center, UK. 2016. Retrieved 2017-09-24.
  6. Surrey Space Centre – UK CubeSail Satellite. AMSAT-UK. 11 July 2014.
  7. CubeSail. University of Surrey. Accessed on 6 July 2019.
  8. CubeSail - Sailing. University of Surrey, UK
  9. CubeSail - Satellite. University of Surrey, UK
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