Difference between revisions of "Lunar Life Support Parameters"

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Life support parameters are the rules to ensure Human viability. Lunar Medicine is not something real yet. '''The BASIC Life Support Parameters''' in this case represent the payload of a rocket and are measured in kilograms of supplies per day. They are subdivided into human needs, and human waste. Calculating the number of minimal kilograms of supplies required for each day per person is critical to the [[Lunar Settlement]] and would establish limitations to the number of people inside. Until the [[ISRU]] technology is available the lunar settlement would depend of Earth's importations.<ref> Schrunk, David G. The Moon, Resources, Future Development and Colonization. New York: Jonh Wiley & 1999 pg.6</ref>
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Life support parameters are the rules to ensure Human viability. Lunar Medicine is not something real yet. '''The BASIC Life Support Parameters''' in this case represent the payload of a rocket and are measured in kilograms of supplies per day. They are subdivided into human needs, and human waste. Calculating the number of minimal kilograms of supplies required for each day per person is critical to the [[Lunar Settlement]] and would establish limitations to the number of people inside. Until the [[ISRU]] technology is available the lunar settlement would depend on imports from Earth.<ref> Schrunk, David G. The Moon, Resources, Future Development and Colonization. New York: Jonh Wiley & 1999 pg.6</ref> However, if a [[Progress in Remotely Operated Equipment|robot lunar colony]] is first established and used to put in place the industrial means of recycling resources and deriving them from local lunar material, the later human settlement need never be dependent upon repeated imports of basic expendables. 
  
These number were calculated for the [[MIR]] and utilized in the [[ISS]]. The most difficult issue of a lunar settlement is the cost of the payload, which is nearly US$ 10,000 for every kilogram sent to space.
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Supplies per day can refer to amounts to be resuplied or recycled.  The numbers were calculated for the [[MIR]] and utilized in the [[ISS into the Pacific|ISS]]. The most difficult issue of a lunar settlement is the cost of the payload, which is nearly US$10,000 for every kilogram sent to space.
 
<ref>Lewis, John S. Mining the Sky, Untold Riches from Comets and planets. ISBN 0-201-47959-1</ref>]
 
<ref>Lewis, John S. Mining the Sky, Untold Riches from Comets and planets. ISBN 0-201-47959-1</ref>]
  
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== References ==  
 
== References ==  
 
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<references/>
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[[Category:Life Support]]

Latest revision as of 00:48, 6 January 2012

Life support parameters are the rules to ensure Human viability. Lunar Medicine is not something real yet. The BASIC Life Support Parameters in this case represent the payload of a rocket and are measured in kilograms of supplies per day. They are subdivided into human needs, and human waste. Calculating the number of minimal kilograms of supplies required for each day per person is critical to the Lunar Settlement and would establish limitations to the number of people inside. Until the ISRU technology is available the lunar settlement would depend on imports from Earth.[1] However, if a robot lunar colony is first established and used to put in place the industrial means of recycling resources and deriving them from local lunar material, the later human settlement need never be dependent upon repeated imports of basic expendables.

Supplies per day can refer to amounts to be resuplied or recycled. The numbers were calculated for the MIR and utilized in the ISS. The most difficult issue of a lunar settlement is the cost of the payload, which is nearly US$10,000 for every kilogram sent to space. [2]]

Supplies per day Calculation

The table below [3]shows that every person needs a load of 11.09941 kg and a recyclable 12.47379 kg of water per day. Multiplying this number by 30 days, there would be 332.9823 kg of supplies per person per month. and 374.2137 kg of water, saying that the water is recycled once a month. This second number can be reduced if the settlement has a very efficient water recycling process.

Astronaut.jpg


Needs Effluents
Oxygen: 0.83461 kg Carbon Dioxide: 0.99790 kg
Food: 0.6168 kg Respiration & Perspiration Water: 1.82344 kg
Water in food: 0.49895 kg Urine: 1.501139 kg Feces Water: 0.09072
Food prep Water: 0.71668 kg Urine Solids: 0.05897
Drink: 2.22260 kg Feces Solids: 0.03175 kg
Hand/Face Wash Water: 1.81437 kg Sweat Solids: 0.01814 kg
Shower Water: 3.62874 kg Hygiene Water: 5.44311 kg
Clothing: 0.92986 kg Clothing: 1.13398 kg
Total: 11.09941 kg Total: 11.09941 kg
Clothes Wash Water: 12.47379 kg Clothes Wash Water: 12.47379 kg

See Also


References

  1. Schrunk, David G. The Moon, Resources, Future Development and Colonization. New York: Jonh Wiley & 1999 pg.6
  2. Lewis, John S. Mining the Sky, Untold Riches from Comets and planets. ISBN 0-201-47959-1
  3. Schrunk, David G. The Moon, Resources, Future Development and Colonization. New York: Jonh Wiley & 1999 pg.7