Difference between revisions of "Space access"

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If colonists are to have access to space, they will need a craft to transport them.
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'''Space access''' is the ability for persons to leave a planet's surface. This page is an introduction on basic principles and technology of getting from the Martian surface to an [[orbit]] or into free space.  
  
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==Motivation==
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A human [[colony]] on Mars can be established with or without space access. The fight against the strong gravitational pull requires large amounts of [[energy]]. Since the [[gravity]] of [[Mars]] is smaller than [[Earth]] and the [[atmosphere]] is thinner, space access is easier. However, the energy resources of such a colony are limited. Using parts of the available energy for space access reduces other project's progress.
  
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So, why should the colonists spend the effort? Assuming, the colonists went to Mars to stay there and build their own civilization, there still might be some additional tasks to do:
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* Trips to Low Mars Orbit and possible space stations residing there for scientific reasons
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* Trips to [[Phobos]] and [[Deimos]] for scientific and mining reasons.
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* Ferry persons to and from space craft that have arrived from, or are heading for, Earth, or other celestial bodies.
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* Possible satellite repair, not a dissimilar task as to what was imagined for the [[space shuttle]] in the 1970's
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==Conventional rocket crafts==
  
== Requirements ==
 
 
The craft should be:
 
The craft should be:
 
 
*Reusable
 
*Reusable
 
*Single Stage to [[Orbit]] (SSTA)
 
*Single Stage to [[Orbit]] (SSTA)
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*Able to [[Shared componenting|share components with other machines]]
 
*Able to [[Shared componenting|share components with other machines]]
  
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The craft should have Single Stage to Orbit (SSTO) capability. It has proved very difficult to build an SSTO launcher on Earth, but the lower Martian [[gravity]] would be of assistance to any launching spacecraft. If the craft uses multiple stages, these will all have to be recovered separately, which complicates the process of reuse.
  
== SSTO ==
 
the craft should have SSTO capability. It has proved very difficult to build an SSTO launcher on Earth, but the lower Martian [[gravity]] would be of assistance to any launching spacecraft. If the craft uses multiple stages, these will all have to be recovered separately, which complicates the process of reuse.
 
 
 
== Propellant ==
 
 
Hydrogen and oxygen propellants can be obtained from Martian ice. The attitude control thrusters could use gaseous oxygen and methane, kept under pressure.
 
Hydrogen and oxygen propellants can be obtained from Martian ice. The attitude control thrusters could use gaseous oxygen and methane, kept under pressure.
  
 
== Early landers ==
 
 
Early landers will probably be non-reusable or only partially reusable. The decent stages of these landers could be dismantled and reused.
 
Early landers will probably be non-reusable or only partially reusable. The decent stages of these landers could be dismantled and reused.
  
 
== Guidance ==
 
 
The guidance systems on the lander need not be [[hi-tech versus lo-tech|hi-tech]]. The Apollo spacecraft flew to the Moon using less computing power then a pocket calculator. A simple computer, or a [[pneumatics|pneumatic]] system could be used. Although there are advantages with hi-tech systems, lo-tech systems could be included as a backup.
 
The guidance systems on the lander need not be [[hi-tech versus lo-tech|hi-tech]]. The Apollo spacecraft flew to the Moon using less computing power then a pocket calculator. A simple computer, or a [[pneumatics|pneumatic]] system could be used. Although there are advantages with hi-tech systems, lo-tech systems could be included as a backup.
  
== Uses ==
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==Speculative concepts==
Uses for the lander include:
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* [[Supersonic in ground effect]] may be used for a winged shuttle even in the thin Martian atmosphere to help reduce costs.
Trips to Low Mars Orbit and possible space stations residing there,
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* A [[space elevator]] is an interesting alternative both for Luna and Mars. Probably, it allows even more cost reduction.
Trips to Phobos and Deimos
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* A [[mass driver]] is powered electrical and requires no chemical fuels. While on Earth this would not work for lifting people to orbit, the conditions of Mars might allow it.
Trips to ferry crews to and from space craft that have arrived from, or are headed for, Earth, or other planets.
 
Possible satellite repair, not a dissimilar task as to what was imagined for the space shuttle in the 1970's
 
 
 
==Shuttle==
 
The cost of lifting items from Mars could become considerably less than the cost of lifting them from Earth.  Low Mars orbit, at an altitude of 100 miles, has a velocity of 3440 meters per second, less than half of the velocity needed to orbit Earth at that altitude, more than twice the velocity needed to orbit Luna.  With reusable rockets built on Earth to use liquid methane and liquid oxygen, if the exhaust velocity is 3500 meters per second, there should be 36% of the take-off weight in orbit.  With wings for a [[supersonic in ground effect]] in the 0.1 psi Martian [[atmosphere]], the empty weight should be held to 30% leaving 6% of the take-off weight as cargo. Practicality:
 
 
 
*There seems reason to believe that supersonic in ground effect landing is a significant problem, and that it should yield to the proper effort, resulting in an economic Mars to Low Mars Orbit Shuttle (MTLMOS pronounced metal mos to rhyme with verbose).  Donald Campbell was killed on the 4th of January, 1967 when the "Bluebird K7" racing boat flipped over and disintegrated at a speed greater than 300 mph. <ref> Bluebird K7 article at Wikipedia </ref> The problem seems to have been longitudinal instability when high ground effect lifting forces acted on a center of lift that shifted rapidly with changing attitude. 
 
*This sort of problem is made more difficult by the need to consider the reflection of shock waves in supersonic flight in ground effect.  Such problems were handled successfully when the "Thrust SSC" broke the speed of sound on land during a 15th of October 1997 setting of the world's land speed record.  <ref> http://www.speedace.info/thrust_ssc </ref>
 
*An ordinary wind tunnel by itself is insufficient for testing craft in supersonic ground effect conditions.  A moving belt of caterpillar like treads on the bottom of the wind tunnel moving as fast as the gas in the wind tunnel could simulate the runway rushing past during landing.  Having a belt of treads that are broad enough and move fast enough for the simulation would be expensive, but not as expensive as doing the testing on Mars.  At least with only 0.1 psi of carbon dioxide needed for a simulation, it would not cost as much as otherwise to fill the wind tunnel with cold carbon dioxide.
 
*Landing at a speed in the neighborhood of 1000 mph (mach 1.9 on Mars) might seem more difficult than the feat accomplished by "Thrust SSC," but moving through only 150th of the gas pressure (100th of the density) more than compensates for the increased speed.  Maintaining lift and orientational stability are the problems for which we have aeronautical engineers, computational aerodynamics, and wind tunnels.
 
 
 
====Space Elevator====
 
A [[space elevator]] is an interesting alternative both for Luna and Mars. Probably, it allows even more cost reduction.
 
 
 
  
 
==references==  
 
==references==  

Revision as of 12:20, 3 September 2009

Space access is the ability for persons to leave a planet's surface. This page is an introduction on basic principles and technology of getting from the Martian surface to an orbit or into free space.

Motivation

A human colony on Mars can be established with or without space access. The fight against the strong gravitational pull requires large amounts of energy. Since the gravity of Mars is smaller than Earth and the atmosphere is thinner, space access is easier. However, the energy resources of such a colony are limited. Using parts of the available energy for space access reduces other project's progress.

So, why should the colonists spend the effort? Assuming, the colonists went to Mars to stay there and build their own civilization, there still might be some additional tasks to do:

  • Trips to Low Mars Orbit and possible space stations residing there for scientific reasons
  • Trips to Phobos and Deimos for scientific and mining reasons.
  • Ferry persons to and from space craft that have arrived from, or are heading for, Earth, or other celestial bodies.
  • Possible satellite repair, not a dissimilar task as to what was imagined for the space shuttle in the 1970's

Conventional rocket crafts

The craft should be:

The craft should have Single Stage to Orbit (SSTO) capability. It has proved very difficult to build an SSTO launcher on Earth, but the lower Martian gravity would be of assistance to any launching spacecraft. If the craft uses multiple stages, these will all have to be recovered separately, which complicates the process of reuse.

Hydrogen and oxygen propellants can be obtained from Martian ice. The attitude control thrusters could use gaseous oxygen and methane, kept under pressure.

Early landers will probably be non-reusable or only partially reusable. The decent stages of these landers could be dismantled and reused.

The guidance systems on the lander need not be hi-tech. The Apollo spacecraft flew to the Moon using less computing power then a pocket calculator. A simple computer, or a pneumatic system could be used. Although there are advantages with hi-tech systems, lo-tech systems could be included as a backup.

Speculative concepts

  • Supersonic in ground effect may be used for a winged shuttle even in the thin Martian atmosphere to help reduce costs.
  • A space elevator is an interesting alternative both for Luna and Mars. Probably, it allows even more cost reduction.
  • A mass driver is powered electrical and requires no chemical fuels. While on Earth this would not work for lifting people to orbit, the conditions of Mars might allow it.

references