Difference between revisions of "WebSpaceSim"
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* 2012-09-29 separated into own project, was originally space-test inside mountainfort experiment | * 2012-09-29 separated into own project, was originally space-test inside mountainfort experiment | ||
+ | |||
+ | == outline == | ||
+ | |||
+ | * one "free" launch to moon (incurs dept) | ||
+ | * make solar cells + fuel + electro-magnetic launch systems on moon | ||
+ | * launch fuel to earth orbit : pay back initial dept and then trade for equipment and material to expand further | ||
+ | * access and harvest materials from near-earth-asteroids | ||
+ | * possible goal to make self-sustaining (not reliant on earth-launches) colony for x thousand humans on moon or in orbit | ||
+ | |||
+ | == rationale == | ||
+ | |||
+ | * no time pressure, remote-controlled robotic rover doesn't need food or air, solar cells last several years, so even inefficient manufacturing machines will fullfil their tasks eventually | ||
+ | * due to vacuum (no air friction) and much lower gravity than earth, an electromagnetic launch systems should be feasible (if in doubt add rocket-assisted) | ||
+ | * aluminium powder as well as hydrogen from the water-ice discovered in recent years can be produced as fuel | ||
+ | * silicon and aluminium from regolith can be used as basis to create solar cells, at least in combination with further materials/components imported from earth | ||
+ | * vaccum allows using thin aluminium foil without oxidation. this allows large scale mirror-arrays to increase solar cell efficiency | ||
+ | * aluminum and iron for structures can be produced from regolith | ||
+ | * due to high launch cost from earth, bringing fuel and iron/aluminium for structures from moon should be interesting economically, and at least allow trade for components that can only be manufactured on earth |
Revision as of 14:55, 13 November 2012
Contents
main
- NOT-YET-PLAYABLE pre alpha, just tech experiments so far
- http://ghoulsblade.schattenkind.net/webspacesim/
- realistic simulation of landing and constructions on the moon using remote controlled rovers/robots and chemically processing on-site material
details
- a little hobby project worked on irregularly
- tech: playable in browser without plugins, using webgl and javascript
- aims for realism, using current technology and prices as far as possible.
- current data (prices,weight,chemical composition,...) is just preliminary for getting the simulation mechanics running and will need intensive fact-checking and research later
- optional experiments with theoretical launch & propulsion systems only as long as they are scientifically realistic in the near future
- In-situ resource utilization by chemically processing Lunar Regolith to extract chemicals and process them to manufacture Solar Cells, Propellants, Structures and other things
- construct more/bigger machines by combining components imported from earth with cruder parts made from in-situ chemicals (using Additive Manufacturing / 3D Printing)
- experiments with plant-growing e.g. Hydroponics (light, temperature, and nutrients from chemicals)
- later experiments with other planets, moons, asteroids, satellites,probes,landers and in space construction, and transporting material between multiple sites.
- Maneuvers using Orbital Mechanics like Gravitational Slingshot and Atmospheric Drag to conserve fuel
- 2012-09-29 separated into own project, was originally space-test inside mountainfort experiment
outline
- one "free" launch to moon (incurs dept)
- make solar cells + fuel + electro-magnetic launch systems on moon
- launch fuel to earth orbit : pay back initial dept and then trade for equipment and material to expand further
- access and harvest materials from near-earth-asteroids
- possible goal to make self-sustaining (not reliant on earth-launches) colony for x thousand humans on moon or in orbit
rationale
- no time pressure, remote-controlled robotic rover doesn't need food or air, solar cells last several years, so even inefficient manufacturing machines will fullfil their tasks eventually
- due to vacuum (no air friction) and much lower gravity than earth, an electromagnetic launch systems should be feasible (if in doubt add rocket-assisted)
- aluminium powder as well as hydrogen from the water-ice discovered in recent years can be produced as fuel
- silicon and aluminium from regolith can be used as basis to create solar cells, at least in combination with further materials/components imported from earth
- vaccum allows using thin aluminium foil without oxidation. this allows large scale mirror-arrays to increase solar cell efficiency
- aluminum and iron for structures can be produced from regolith
- due to high launch cost from earth, bringing fuel and iron/aluminium for structures from moon should be interesting economically, and at least allow trade for components that can only be manufactured on earth