Difference between revisions of "Lunarpedia:Outline draft/WHERE TO"
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<big><big><big>'''''[[Lunarpedia:Outline_draft|Back To Main Outline Draft Index]]'''''</big></big></big> | <big><big><big>'''''[[Lunarpedia:Outline_draft|Back To Main Outline Draft Index]]'''''</big></big></big> | ||
| − | + | =[[Lunarpedia:Outline_draft/PRELUDE|PRELUDE]]= | |
| − | + | =WHERE TO= | |
| − | + | ==Major Challenges to Settling the Moon== | |
| − | + | ===Dayspan Heat - Nightspan Cold=== | |
*The thermal problem as a superficial one in absence of a heat convecting atmosphere | *The thermal problem as a superficial one in absence of a heat convecting atmosphere | ||
:Shading joints, lubricated areas, material interface areas | :Shading joints, lubricated areas, material interface areas | ||
| Line 13: | Line 13: | ||
:Using materials with near-zero coefficient of thermal expansion | :Using materials with near-zero coefficient of thermal expansion | ||
:Using materials that are both heat- and cold-hardy | :Using materials that are both heat- and cold-hardy | ||
| − | + | ===Dust Control Problems=== | |
*Exploring electrostatic dust repulsion systems | *Exploring electrostatic dust repulsion systems | ||
*Turtle back spacesuits & conformal airlocks* (*also minimizes airlock cycling losses of oxygen, nitrogen, water vapor) | *Turtle back spacesuits & conformal airlocks* (*also minimizes airlock cycling losses of oxygen, nitrogen, water vapor) | ||
| Line 19: | Line 19: | ||
*Paving or sintering vehicle and pedestrian approaches to airlocks | *Paving or sintering vehicle and pedestrian approaches to airlocks | ||
*Covering joints and lubricated areas to minimize dust problem | *Covering joints and lubricated areas to minimize dust problem | ||
| − | + | ===Power Options dayspan=== | |
*Solar concentrators | *Solar concentrators | ||
*Solar panels | *Solar panels | ||
| Line 32: | Line 32: | ||
:Scavenging nuclear wastes from Earth | :Scavenging nuclear wastes from Earth | ||
:A lunar nuclear fuels industry based on the thorium 232 > uranium 233 cycle | :A lunar nuclear fuels industry based on the thorium 232 > uranium 233 cycle | ||
| − | + | ===Power Options nightspan=== | |
*Nuclear (see subcategories under Power Options Dayspan) | *Nuclear (see subcategories under Power Options Dayspan) | ||
*Potentiation cycles - storing potential energy | *Potentiation cycles - storing potential energy | ||
| Line 45: | Line 45: | ||
:Energy-light nightspan tasks | :Energy-light nightspan tasks | ||
| − | + | ==Site Type Pros & Cons== | |
| − | + | ===Polar Sites=== | |
*Pros | *Pros | ||
:Both poles have "peaks of eternal sunshine" for power generation | :Both poles have "peaks of eternal sunshine" for power generation | ||
| Line 59: | Line 59: | ||
:The polar highlands do not offer all the resources needed for industrialization | :The polar highlands do not offer all the resources needed for industrialization | ||
:Solar wind hydrogen, with which to make water, is available anywhere on the Moon | :Solar wind hydrogen, with which to make water, is available anywhere on the Moon | ||
| − | + | ===Mare-Highland Coast sites=== | |
| + | *Locations of Interest | ||
| + | :[[Mare Anguis]] | ||
*Pros | *Pros | ||
:Access to both major regolith suites | :Access to both major regolith suites | ||
| Line 73: | Line 75: | ||
:Counterpoint: mastering these twin challenges will allow us to set up shop and settle anywhere on the Moon. | :Counterpoint: mastering these twin challenges will allow us to set up shop and settle anywhere on the Moon. | ||
| − | + | ||
| − | + | =[[Lunarpedia:Outline_draft/THE RETURN|THE RETURN]]= | |
| − | + | =[[Lunarpedia:Outline_draft/BREAKOUT AGENDA|BREAKOUT AGENDA]]= | |
| − | + | =[[Lunarpedia:Outline_draft/SETTLEMENT GROWTH|SETTLEMENT GROWTH]]= | |
| − | + | =[[Lunarpedia:Outline_draft/TRADE AND THE BOTTOM LINE|TRADE AND THE BOTTOM LINE]]= | |
| + | =[[Lunarpedia:Outline_draft/HEALTHY CITIZENS|HEALTHY CITIZENS]]= | ||
| + | =[[Lunarpedia:Outline_draft/UNIVERSITY OF LUNA|UNIVERSITY OF LUNA]]= | ||
<big><big><big>'''''[[Lunarpedia:Outline_draft|Back To Main Outline Draft Index]]'''''</big></big></big> | <big><big><big>'''''[[Lunarpedia:Outline_draft|Back To Main Outline Draft Index]]'''''</big></big></big> | ||
Latest revision as of 04:53, 29 October 2006
Back To Main Outline Draft Index
Contents
PRELUDE
WHERE TO
Major Challenges to Settling the Moon
Dayspan Heat - Nightspan Cold
- The thermal problem as a superficial one in absence of a heat convecting atmosphere
- Shading joints, lubricated areas, material interface areas
- Development of cryo-lubricants
- Operations management issues
- Using materials with near-zero coefficient of thermal expansion
- Using materials that are both heat- and cold-hardy
Dust Control Problems
- Exploring electrostatic dust repulsion systems
- Turtle back spacesuits & conformal airlocks* (*also minimizes airlock cycling losses of oxygen, nitrogen, water vapor)
- Biodegradable suit and boot coverings
- Paving or sintering vehicle and pedestrian approaches to airlocks
- Covering joints and lubricated areas to minimize dust problem
Power Options dayspan
- Solar concentrators
- Solar panels
- Circum global solar powered supermagnetic belt
- Solar arrays distributing beamed power by relay sats
- L4, L5, L1, L2
- Lunar polar power tower global networks
- Nuclear
- Waste treatment
- Waste disposal
- Lunar nuclear fuels industry
- Scavenging nuclear wastes from Earth
- A lunar nuclear fuels industry based on the thorium 232 > uranium 233 cycle
Power Options nightspan
- Nuclear (see subcategories under Power Options Dayspan)
- Potentiation cycles - storing potential energy
- Water-oxygen fuel cells
- Flywheels
- Storage rings
- Hydroelectric loops
- Magma pools
- other
- Operations management
- Energy intensive dayspan tasks
- Energy-light nightspan tasks
Site Type Pros & Cons
Polar Sites
- Pros
- Both poles have "peaks of eternal sunshine" for power generation
- Thermal conditions do not vary greatly through the sunth (lunar month)
- Both poles are in the center of extensive coldtrap or permashade areas where we expect to find water-ice deposits
- Cons
- Both poles are rugged highland areas in which construction may be difficult
- The sunlight always comes in at, just above, or just below the horizon sibility and location identification problems
- The high amount of total tonnage needed to erect a solar power tower system
- Expected polar ice-deposits are of unknown quantity, concentration, and difficulty of extraction
- All our efforts mastering the challenges of the polar areas, will not prepare or enable us to set up outposts elsewhere on the Moon
- The polar highlands do not offer all the resources needed for industrialization
- Solar wind hydrogen, with which to make water, is available anywhere on the Moon
Mare-Highland Coast sites
- Locations of Interest
- Pros
- Access to both major regolith suites
- Some coastal sites are also ilmenite rich
- Some coastal sites may involve potassium and phosphorus rich KREEP deposits
- Some coastal sites involve subsurface lavatubes
- Maria provide extensive areas of obstacle free transit
- Some coastal sites are much closer to the nearest circumpolar coldtraps, than either pole itself is to the nearest coast
- other
- Cons
- Extreme dayspan-nightspan temperature swings are a challenge to vehicle and structure design, as well as to lubricants
- The need to store up enough power during dayspan to get through the lunar nightspan
- Counterpoint: mastering these twin challenges will allow us to set up shop and settle anywhere on the Moon.
