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I wasn't proposing we buy an off the shelf mini-lathe from Walmart! LOL Yes, we will of course have to do the sort of things you suggest. I would start pretty much from scratch. I was simply pointing out such things exist and that you can do useful work on them. We need a Mars equivalent.
Likewise the digger blade and drills for mining would be suitable for the demanding environment. Incidentally we might well use water and microwave radiation to heat up the ground where we are doing digging.
If you ever want to get an industrial infrastructure you'll have to carry out that sort of design work at some stage. Why not for Mission 1 is my view? Why wait to Mission 3? Of course it won't be the top priority but we need to get to work as soon as possible to save mass on follow up missions.
Let's Go to Mars...Google on: Fast Track to Mars blogspot.com
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Let me put to you this way, then, Louis. Let us say you had one Falcon Heavy that could land 11 metric tonnes of industrial and engineering equipment on Mars. What would you land? What would you land with a second launch 2 years later? With, say, TWO launches another 2 years later? If we have an initial crew of 6, with 2 doing maintenance and 2 doing science, and the other 2 splitting their time between engineering/industry, hydroponics, and medical support, what could they do; or would you allocate the six crew differently?
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Rob S -
Personally I would not afford a high priority to either science or exploration to begin with. I have had this argument with others here before. My argument is that if you can create a viable and largely self-sufficient colony on Mars you can a much larger population and within 10 years you will be able to do far more science and exploration.
Of course that is not to say that there should be no science or exploration, only that the priority should be given to self-sufficiency and revenue generation. So, my priorities would be the industrial and agricultural infrastructure - energy generation, mining and production; hydroponic and artificially lit farming - together with habitat construction for follow on crews. We need to find a quick ISRU way to create Mars habitats. I find Mars brick an aesthetically pleasing idea, but the reality may be we simply dig trenches, roof them with steel plates and load on icecrete or regolith. We may need to produce some sort of internal plaster or concrete that can be used. We could also experiment with sand bag construction. It may prove possible to pressurise such structures. Remember we are initially talking about a community of six people perhaps doubling every two years so we get to 12, 24, 48, 96, 192 - near enough 200 within 10 years. Colony of 200 might only need about 60-100 transfers of people every two years,assuming we find people can live there healthily for several years. By that time we may have dedicated large transfer vehicles that can carry 20 people at a time (though we might still need say 7 launches x 3 people to get them to the transfer vehicle).
The material needs of 200 people will still be measured more in kgs than tonnes, so the industrial infrastructure does not have to be huge. Construction materials will probably be the main production items e.g. steel plates, steel bars and uprights; bricks; cement or concrete etc.
So, to answer your question my priorities for industrial and engineering equipment would be:
1. PV panels (you might have those accounted for already in any case); mini-robot diggers (teleoperated) for mining; a pressurised rover/digger (which can also act as a control room for the robot;diggers) (you might also have that accounted for); a smelting facility; small steam engine with electric generator; electrolysis machines; methane generating machine (this seems good if it can double up as energy storage and rocket fuel); lathes; presses; kiln; brick furnace; cement equipment; industrial microwave oven/facility. For agriculture: hydroponic equipment, liquid fertiliser, farming, artificial lighting rigs; farm tools.
2. Later on: more CNC controlled lathes; more chemical industry equipment; gas cylinders; polymer production equipment; wood lathes for working bamboo (which I believe could be a v. useful material on Mars).
For agriculture: rich composts to be used with Mars regolith; fertiliser; rock grinding material to help make soil on Mars.
As for the crew I did my own detailed analysis of work hour allocation. Agriculture and mining will take a lot of time but where there are hours to spare I would put people into industrial work rather science or exploration. However, in searching for valuable meteorites, we might be able to combine revenue generation with exploration.
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Good locations for early settlements...does anyone want to give some suggestions?
(There was this list at the old Red Colony site - http://www.redcolony.com/art.php?id=0008150 )
I think the prerequisites will be safe landing sites, access to water and iron ore and interesting objects of research.
Somewhere near the Valles Marineris has got to be a prime candidate in terms of object of research, but I am not sure how far it meets other criteria.
http://mars.jpl.nasa.gov/gallery/martia … 70820.html
Does anyone know the location of equatorial glaciers on Mars?
I choose Hellas.
Glaciers 1/2 mile thick?
Pressure maximum 1.89 * Mean
Not too far south.
http://www.space.com/11456-mars-dry-ice … water.html
http://www.telegraph.co.uk/science/scie … -Mars.html
http://geology.com/research/glaciers-on-mars.shtml
http://en.wikipedia.org/wiki/Hellas_Planetia
So, that means that if the dry ice that is known of can be evaporated, I supposed by greenhouse gasses, then the best pressure at the bottom of Hellas could be 20-21 Millibars.
Even now it is somewhat favorable to the existence of temporary liquid water.
The glaciers of course as a source of water, uphill, so that a gravity feed of melted water is possible. (In a covered canal or pipeline).
I have very great reservations about notions of greenhouses I see portraid on this web site or others.
It is my opinion that Glass would be best used in a unpressurzed "A-Frame" where the Panes could be changeable with metal fittings, and no siginificant pressurization would be employed. The A-Frame with glass would be to filter out U.V. and to hold heat in, and to keep some dust out.
I would say that I think that in that structure could be bags of water, where the bags could hold a reasonable pressure, and would support aquatic plant life.
In adition, bags re-enforced with "Hose" like counter pressure suits. Where the joins would occur between "Sausage Links", a metal frame which the "Hose/Net" would be anchored with lashings. Inside this perhaps a soil of styrafoam which your bamboo could grow, and upon which humans could walk. The styraform peices allowing digging to access leaks. Hydrophonic fluid to feed the bamboo or other crops.
I really like to imagine an "A-Frame" where also inside of it is an unpressurized vapor-barrier tent inside of that a capacitive device which has a wick attached to it.
I have seen chart recorders where a paper sheet could be held to it by electostatic force. It was rather strong. "Hewlett Packerd" made them I belive. Havn't seen them around lately. The same method could pressurize a root system for the plants where the wick could be wetted. The point being that at the low elevations of Hellas, this method might support a specially engineered crop where no strong effort is needed to make allow the plant to grow. Just a glass A-Frame, a vapor barrier tent, and a root system facitated by electostatic force.
If this works, then you have a hope of machines serving the needs of people, rather than people making unreasonable efforts to make anything grow.
A profit is a must.
Oh, and I didn't even mention how you could easily tunnel into the glacier to provide space for industrial activities, and natural "Freezers" for food.
Neither did I mention Antarctic Dry Valley Lakes. Or did I?
And then the extra layer of atmosphere, to assist parachutes for landing?
I see it as win, win, win.
Last edited by Void (2012-04-16 17:21:00)
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The problem with no science or exploration is that you are basically goin in blind trusting only in that data to which you have in had to make the perfect site selection for building the maximum utilization of insitu materials that is there in easy reach.....
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The problem with no science or exploration is that you are basically goin in blind trusting only in that data to which you have in had to make the perfect site selection for building the maximum utilization of insitu materials that is there in easy reach.....
I don't think so Space Nut. Part of the prep for a human mission would be to send a rover with analytical equipment on board = probably something like the MSL. I think we'd have a v. good idea of the landing area before we go.
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So if that machine found a collection of attributes reasonably near a favored location and that prompted the first settlement to be established there what would that collection be?
I have this list of probable materials in Hellas.
-Magnetic Meteor Iron.
-Glaciers, and probabbly other ice under the soil in places.
-Thicker atmosphere.
-Not a true polar location (Not as harsh as the poles).
One other thing I think is possible is Copper Sulphate?
http://spacefellowship.com/news/art2077 … lakes.html
http://en.wikipedia.org/wiki/Copper(II)_sulfate
I am presuming that if the last part of the wet period of Mars was acid as is said, copper in the soil and rocks would have been leached out, and would end up as disolved materials in lakes in Hellas, and that when those lakes dried up, there would have been salt pans. I don't know how to get copper out of copper sulphate, but I would imagine it can be done somehow.
I might also what to find salt domes and perhaps even petroleum in association with those. But, I am not thinking that such a convenience is likely to be near the site which would be selected, but maybe.
I guess a really big need would be the resources to make good glass with, but I don't know what that is yet.
Last edited by Void (2012-04-17 15:01:32)
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So if that machine found a collection of attributes reasonably near a favored location and that prompted the first settlement to be established there what would that collection be?
I have this list of probable materials in Hellas.
-Magnetic Meteor Iron.
-Glaciers, and probabbly other ice under the soil in places.
-Thicker atmosphere.
-Not a true polar location (Not as harsh as the poles).
One other thing I think is possible is Copper Sulphate?
http://spacefellowship.com/news/art2077 … lakes.html
http://en.wikipedia.org/wiki/Copper(II)_sulfate
I am presuming that if the last part of the wet period of Mars was acid as is said, copper in the soil and rocks would have been leached out, and would end up as disolved materials in lakes in Hellas, and that when those lakes dried up, there would have been salt pans. I don't know how to get copper out of copper sulphate, but I would imagine it can be done somehow.I might also what to find salt domes and perhaps even petroleum in association with those. But, I am not thinking that such a convenience is likely to be near the site which would be selected, but maybe.
I guess a really big need would be the resources to make good glass with, but I don't know what that is yet.
Copper I have always understood to be pretty rare.
Here is a guide to glass constituents.
http://en.wikipedia.org/wiki/Glass#Glass_ingredients
The quartz sands/silica should not be a problem but we may struggle to fund calcium carbonate. In fact as the latter is useful/essential in steel production, we might have to think in terms of taking quite a lot of that material with us to begin with.
I can't really see why the denser atmosphere is an advantage. Some minimal protection against radiation? I don't think we should worry about atmopsheric pressure too much.
Petroleum seems pretty unlikely. We can make our own though, if you think it's important!
Iron ore should be pretty ubiquitous. Why is magnetic meteor iron required?
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Thank you Louis, I enjoyed the provisions on glass. Perhaps when I retire I will take a greater interest in glass as a hobby.
Void wrote:
So if that machine found a collection of attributes reasonably near a favored location and that prompted the first settlement to be established there what would that collection be?I have this list of probable materials in Hellas.
-Magnetic Meteor Iron.
-Glaciers, and probabbly other ice under the soil in places.
-Thicker atmosphere.
-Not a true polar location (Not as harsh as the poles).
One other thing I think is possible is Copper Sulphate?
http://spacefellowship.com/news/art2077 … lakes.html
http://en.wikipedia.org/wiki/Copper(II)_sulfate
I am presuming that if the last part of the wet period of Mars was acid as is said, copper in the soil and rocks would have been leached out, and would end up as disolved materials in lakes in Hellas, and that when those lakes dried up, there would have been salt pans. I don't know how to get copper out of copper sulphate, but I would imagine it can be done somehow.I might also what to find salt domes and perhaps even petroleum in association with those. But, I am not thinking that such a convenience is likely to be near the site which would be selected, but maybe.
I guess a really big need would be the resources to make good glass with, but I don't know what that is yet.
Lewis wrote:
Copper I have always understood to be pretty rare.
Here is a guide to glass constituents.
http://en.wikipedia.org/wiki/Glass#Glass_ingredients
The quartz sands/silica should not be a problem but we may struggle to fund calcium carbonate. In fact as the latter is useful/essential in steel production, we might have to think in terms of taking quite a lot of that material with us to begin with.
I can't really see why the denser atmosphere is an advantage. Some minimal protection against radiation? I don't think we should worry about atmopsheric pressure too much.
Petroleum seems pretty unlikely. We can make our own though, if you think it's important!
Iron ore should be pretty ubiquitous. Why is magnetic meteor iron required?
Copper may be rare, but with an acid rain or acid snow melt for tens or thousands or even hundreds of thousands of years, I would expect that little bits of native copper and other copper would have disolved into sulphides, and washed into the salt seas and lakes. I would expect to find the remnants of those in Hellas, perhaps under some significant amount of air borne sediments.
However salt domes are fluid, and will erupt to the surface, and carry copper sulphide and perhaps calcium salts with it.
Here are some links to sudy, and then I will continue my reply:
http://en.wikipedia.org/wiki/Calcium
http://www.jmcgowan.com/mars_reprint.PDF
I certainly hope this is not hoaxed: (Notice the petroleum seep, and remember that there are places on Mars where Methane replenishes into the atmosphere).
http://www.martinhovland.com/Mars%20and … 20Salt.htm
http://earth-pages.co.uk/2009/09/01/and … s-on-mars/
And here is my badge of shame:
http://outerspaceplace.blogspot.com/201 … -mars.html
As for Calcium Carbide, I reccomend a study of Methane seeps in the ocean and the creatures that inhabit them. Clams? Make methane, feed the clams, and I guess food and shells. If you could get the salts from a salt dome or salt pan, then calcium salts that could be added to the tank. No lights needed, and temperatures do not have to be that high. Just Oxygen, Methane and salt water I presume.
A thick atmosphere offers a better chance to get the starter materials from Earth down safely I would think. More time to get the parachutes to do their job.
The bottom of Hellas actually will allow temporary drops of water in the soil, provided the water were there, and also provided that it was heated. However it is arid, and evaporation would quickly take water on the surface away. However, a bag of icewater would do quite nicely. Just put it in a hole, put an A-Frame glass greenhouse over it to protect it from U.V. and to hold some heat in. At night it would develop ice, but during the day this would keep it from going above the tripple point. Just make sealed bags with water and nutrients. Put plants in them, and put them in the greenhouse. The bags could actually hold a bit more pressure, but why make things harder. Let plants grow, and then take the bags into your shelter and open them. I know that there are not a huge number of plants other than Algae which would love this, but I bet if the tundra were searched you might find some advanced plants that might deal with this. They might have food value or be altered to have food value. If greenhouse gasses were used to evaporate the CO2 on Mars, then the pressure at the bottom of Hellas could rise to at least 20 Millibars. This implies that the process I just described could become even more feasable. And of course their is the dream of having an Ozone layer. If you had 20 Millibars in the bottom of Hellas and an Ozone layer, then there is really a chance that some very tough crops could be gown out of doors with irrigation. That would have to be a plus. Putting the first settlement near this location might make some sense for such a reason as well. And yes there is a slight radiation improvement I presume.
Finally, if a glacier 1/2 mile thick max, and the size of Los Angeles were melted, then a dry valley lake could be created and sustained. The ice in this location would be more stable and would require less effort to protect it. I see this dry valley lake as having enormous significance for the generation of electric power.
Petrolium is commonly found in salt domes. We are continuously fed stories about how petroleum is only created from fossil life, but while that could be true also, consider what happens if a plate subducts deep into the Earth, drawing with it water. If it encounters non-oxidized rocks and metals at high heat, the oxygen is plucked off the water. Leaving Hydrogen, which is about as small as a molecule gets. This hydrogen has the best chances of working it's way up through the Mantle and crust and during such a passage can pick up carbon and become Methane. This alternate theory believes that actually Oil and Coal are mostly created by the contiunuation of that process where eventually the Methane gets trapped in a dome structure, and the Hydrogen eventually breaks free and leave behind a concentrate of Carbon/Oil/Coal. In that theory, fossils in coal are actually just indeed plant matter burried which created an ideal place for leaking oil/Methane to collect. Consider the Tar Sands in Canada.
And there is also very likely the notion that Hydrated materials would have been burried inside the planets even during their formation. Perhaps not water, but indeed this is even a possibility. In such a case as that Hydrogen, Methane, Carbon Monoxide, Carbon Dioxide are constantly working their way up from the core, both on Earth an Mars.
A book to consider is "The Deep Hot Biophere" by Thomas Gold. So then if true for Earth then very likely for Mars as well, but perhaps a bit different in nature.
Why Meteoric Iron? Because as someone on this site said, a robot cart with magnets could collect it for you while you were working on other problems like making glass. Eventualy regular iron mining, but why not take the easy stuff first. It is going to be hard enough getting humans established without taking advantage of an easy prise.
In fact every thing we do to survive depends upon things that Nature gives to us easily. The first settlement will be very weak, and will need all the advantages it can get.
As you might have guessed, I am not that proficient in language skills. Space Relations, Science, maybe some Math. Even so, I suggest that the word "Colony" be phased out. It suggests exploitation, and?carries much other unsuitable bagage, which are linked to social demands which have to do with a past on Earth, and places a confused burden on our dreams for the future of Mars. We don't need to set this "Child" up with a "Disinheritance" which "Social Engineers" might hope to tap for power and from their own narrow and misguided perceptions of realities which hides their selfishness even from themselves, where they become compelled to try to inhibit progress. I suggest other words such as "Settlement".
Last edited by Void (2012-04-18 03:43:37)
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Some may feel that just one MSL would be ok for site prep but the science that its going to return is not geared at insitu material search and the pictures are only go so far as to what is there.
What would be the master list to search for starting with water/ice....which would be critical for such a mission to go forth....
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Some may feel that just one MSL would be ok for site prep but the science that its going to return is not geared at insitu material search and the pictures are only go so far as to what is there.
What would be the master list to search for starting with water/ice....which would be critical for such a mission to go forth....
Yes, water/ice is critical for say a useful two year mission. We need it for habitat use, and potentially (not critically) for habitat use and for making rocket fuel.
Other essentials:
Stable firm ground for landing and for habitats; absence of sand dunes or evidence of recent water action (danger of flood).
Sufficient area that is suitable for PV panels (in my view - obviously a nuclear reactor option would have different requirements).
With those I think you are good to go.
But it would be nice to have iron ore, silica, calcium carbonate, basalt, aluminium and a few other materials as well. We can do a lot of industrial experimentation though with whatever happens to be lying around - can start making various gases and acids etc.
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Musk plans 1,000-ship fleets to colonize Mars
https://newatlas.com/space/musk-mars-co … an-update/
Elon Musk’s Mars colony plan is ‘dangerous illusion’, says Astronomer Royal
https://www.yahoo.com/news/elon-musk-ma … 20042.html
Elon Musk is harbouring a “dangerous illusion” that a colony can be established on Mars, the Astronomer Royal has warned. Prof Lord Martin Rees,
and some thoughts on how people might think about it all
1
Where there may be Alien Life, the search for life seems to get public support. If you want to do Astronomy however you might be on top of a mountain as they do on Earth. For a long time the beancounters who don't like science they will say this all costs money, Mars for a long time will probably never make economic sense.
2
Go to the Water, even with experience on the space stations there is loss over time, the ISS systems have recovery milestone of 98% but that means over time you will have a loss of Oxygen and Water. Korolev is interesting an ice-filled impact crater in the Mare Boreum quadrangle of Mar very far North on the north east latitude. Even if a Martain makes a successful business doing long trip tourism cruise to see some fake Alien Polar Bear, Face-On-Mars story and Bigfoot and Lockness monster for tourists he will still need supply of Oxygen and Water ready for the arriving tourists, 'Water Ice' will keep your people and ski resort alive. However Water is at the Poles which have year long "Seasonal" extremes, therefore people on Mars might be nomadic and not locked to a single location, tourism might be controlled and allowed at certain seasons.
3
Stay in the Sun where you can grow plants and feed your animals near the equator, more Sunshine less power output drop, perhaps you would be aware of weather and avoid places which get covered in Dust Storms more often.
4
Power and Chemical needs. Minerals and Energy for example 'Thorium' also Mars has quakes so there might Possibility of some weak Geothermal or weak winds used for back up power coming down from a Valley / Mountain etc Solar is also a resource so this puts you back to the Equator again. No city has ever moved forward without energy and electricity supplies, with more power you can expand farms meet the demands of a big-enough population, even if Solar panels get covered and even if the miners are forced to shelter in big Solar Storm the mini Nuclear reactors will be there as back up and help with minimal self-sufficiency, people will have figured out to store energy at certain locations, there will be trade on battery cargo. The new Martian findings in Chemistry will help Engines physically do work and produce new items in the factories.
5
Go to the thick atmospheres. Land your people to survive anywhere that offers safety for human settlement on Mars, where’s the best place? then you go into Low Areas, the lower Carters, there may be Caves and Lava Tubes, the Basins with thick atmosphere... some are deeper than Everest is tall, this also happens to be some of the better places you can check for alien life. Thicker atmosphere offers aerodynamic breaking, helps airplanes and helicopters, it can allow over the horizon communication using Balloons, Hellas and Argyre are easier to land in and will offer more radiation protection. Machine chips might fail by cosmic rays, the computers in Rovers have faults with Solar Storms and high radiation levels of Mars, a thicker atmosphere will help machines and living creatures live longer.
6
Go to where people are at already, whatever place NASA or China or Super Heavy/Starship Elon Musk Space X or whatever nation or company builds the first village that's where you go. You learn all the languages of Mars you bring your AI robo translator and you can trade with people, the Martian people in villages will already have tools and equipment and people as workers are a valuable resource.
7
Get away from people, start your own new bio-math-astro society and make your own claim, build a new AI uber-human Cyborg Humanoid society, the plan is for innovation and freedom, experiment on new Fusion designs and get away from those Earth people and their regulations, go to where the mad scientists hang out at the frontier while having their scifi revolution. Buy a house where the new hundred thousand mega mind Cyber-people researchers live, go to the place where people experiment with new politics for example a ranked voting 'Technocracy'.
8
Go to a site that offers many things, a mix of resources for Example Mons and Valles with minerals and caves, sub surface liquid and hints that there are glaciers, more CO2 pressure more atmosphere for extraction. The large cave systems might be of huge help to building a colony.
9
Land where the Robot already made a house, Roads, the Machine Robo Airports, the first Nuke Cars, the first Trains, the first petroleum, gas and Space Hopper port stations are established. With No Infrastructure you have No City!
10
Be the Tyrant Emperor the Tyrant Fascist Dictator, your job is to kick butts and conquer, the military men in history secretly admit imperialism is the way, make it a penal colony, you are here to conquer the planet, go to a site where you can bunch them all in and trap everyone, exercise control over a Mars colony! if people on Mars decide not to declare themselves completely independent then send in the Space Navy to fix them and bash them back into their place!!
11
Be the first Mars Coinage millionarie! an exporter, make the biggest multi planet exporter on Mars, go to the place that has a spin-launch, Jules Verne Gun, a 'Space Tug' launch your products to the Asteroid belt from Mars, launch your products from Mars to other worlds.
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