Gauss14: Unterschied zwischen den Versionen
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{{Project | {{Project | ||
|image= | |image=sagittarius.jpg | ||
|involved= | |involved=[[User:Uberhaxlor|Uberhaxlor]] | ||
|startdate= | |startdate=25.7.2014 | ||
|status=active | |status=active | ||
|wtf= | |wtf=femtosatellite launching platform | ||
|hidden=false | |hidden=false | ||
}} | }} | ||
=Gauss14= | |||
The Gauss14 is a femtosatellite launch platform. | |||
==Launcher== | |||
Based on the University of Austin Texas design for the SPEAR coilgun. Current goal is to launch projectiles with a mass of up to 10 grams. | |||
A SMES device (Superconducting Magnetic Energy Storage) is the most viable option for storing the launchers energy. | |||
==Satellite== | |||
== | The femtosatellite will most likely be based on the CubeSat or ArduSat, electronics must be hardend due to high g-forces during launch (up to several hundred g). | ||
====Propulsion==== | |||
A propulsion system without reaction mass is preferable. (tether propusion) | |||
A cooperation with other open source or non profit space programs is desireable. | |||
==Projectile== | |||
The first Prototype is a very cheap, reusable Projectile, launched not electromagnetically but by balloon or conventional chemical propulsion. | |||
===Guidance=== | |||
'''Requirements''' | |||
*Highspeed realtime positioning and Trajectory correction | |||
*Radiation, temperature and g-force hardened | |||
*Ultra low weight | |||
*Long range low power radio | |||
First choice for the autopilot would be the [http://1bitsquared.com/products/lisa-s Lisa/S] board for $300. | |||
Alternatively a custom prototype board could also be developed for about €5 to €50. | |||
===Control=== | |||
No suitable light weight solution found yet. | |||
===Capsule=== | |||
Heat and Radiation shielded light weight capsule with integrated miniaturized parachute system. | |||
==Major Challenges== | |||
====Efficiency==== | |||
Is currently the biggest challenge. Almost all Coilgun designs suffer from low efficiency of only 3 to 9 percent due to losses in the magnetic field and the projectile. | |||
====SMES funding==== | |||
The SMES is still in active research and apperently only a few prototypes are in existence. Aquiring (buying or borrowing one) might be difficult and expensive. | |||
==Links== | |||
SPEAR coilgun https://www.utexas.edu/research/cem/IEEE/PR%20198%20Bresie%20Publications.pdf | |||
ArduSat http://en.wikipedia.org/wiki/ArduSat | |||
CubeSat http://en.wikipedia.org/wiki/CubeSat | |||
EMFF http://en.wikipedia.org/wiki/Electromagnetic_Formation_Flight http://www.niac.usra.edu/files/studies/final_report/793Miller.pdf | |||
SMES http://www.superpower-inc.com/content/superconducting-magnetic-energy-storage-smes http://www.technologyreview.com/news/423227/superconducting-magnets-for-grid-scale-storage/ | |||
HackaDay | |||
http://hackaday.com/tag/space/ | |||
Hackerspaceprogam | |||
http://hackerspaces.org/wiki/Hackerspaces_Global_Space_Program | |||
xkcd | |||
https://what-if.xkcd.com/58/ | |||