New Mars Forums

This post relates to the just previous post about Starship V4 and Starboat.

I may have a notion worth at least a look, which may make Starboat a much better option.

I think that if Starboat goes to Mars from LEO, it should be accompanied by a full Starship, landing only.

That is no intention to relaunch the full Starship.  So, if the two were docked together in transit, this would greatly increase the comfort and safety of the travelers.  Radiation protection may be better as you can impose the bulk of the full starship between the sun and the humans.  The major Starship then can become part of a Mars infrastructure upon landing.

The above is all contemplated already.

If we had the assets for it, we might station a full Starship in orbit, to then accompany the Starboat back to Earth to offer similar protections and comforts.  But unfortunately it is difficult to stop a Starship in orbit of Mars, and otherwise you end up refilling a whole Starship on the surface of Mars which is a burden we wish to avoid by doing a Starboat in the first place.

But I recalled a "Free Return" which could be used in the event that a mission to Mars had to be aborted prior to landing on Mars.

https://en.wikipedia.org/wiki/Free-return_trajectory

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So, with a relatively passive free return, the Starboat might need to launch from Mars orbit to meet up with a full Starship that is on a 2 year free return loop around Mars.  That would doom them to 1.5 years though to get back to Earth.

But if the Free Return Full Starship were bent, by using an Oberth maneuver while passing by Mars, perhaps the trip back to Earth could be modified to be more survivable.

This could be important if it is discovered that some artificial gravity could help human health maintenance a great deal.  A coupled Starship and  Starboat might give that synthetic gravity.

So, a "Mars Oberth Starship" could swing by Mars and I hope that a Starboat could align with it for a return to Earth.

Of course, if the Starboat ends up alone because of a failure of the "Mars Oberth Starship".  The return to Earth could be rather desperate, and marginal in hopes for success.  But if the two can meet on a path back to Earth the inhabitants of the Starboat would have a potentially much more favorable transit situation.

The risks are approximately similar to the risks of using a Cycling Spaceship.  But you would know before you launched from Mars if the Full Starship was on it's way and if it seemed to be functional during the Oberth burn.  You might be able to abort the launch of the Starboat, if the Oberth burn did not go as required.

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OK, Cold Fusion again.  (I am just reading this not saying it is real): https://engineerine.com/canadas-cold-fu … akthrough/
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Claim:

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They said Hydrogen.  Not an isotope?  No Neutrons emitted it seems.

OK if it is real I suppose it will not go away.

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This video talks about a supersized V4 Starship, and towards the end, Starboat (Mini-Starship): https://www.bing.com/videos/riverview/r … ORM=VAMGZC  Quote:

Starship>200 Tons Payload in reusable mode.

The blurb about Starboat is especially interesting to me.  More or less an optional 3rd stage for the Starship system.

-Could be lifted to LEO fully filled with propellants by one Starship.

-Payload to Mars 5-25 Tons?

-2200 km point to point on Mars. (Using 100 tons of propellants)

-50-120 tons of propellants to get back to Earth.

-1/5th as heavy as a Starship.

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Elsewhere, mirrors are being discussed: https://newmars.com/forums/viewtopic.php?id=11238
"Index» Business Proposals» Business Opportunity - Mirror in orbit"

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I guess I am ready to go after that in a friendly way now.  But I will note that Pavlov has conditioned the Climate Issue people.

So, prior to this we had "Subtractive Climate Considerations".  It would be correct to render people who should be surfs, after all back to being surfs for the sake of the climate which after all should be the property of the Elites.

But here we have "Additive Climate Considerations", which may serve to improve over a future of poverty, and yet give medication to a "Climate Illness", if there is one.

We might have a class of devices we could call "Planetary Energy Diverters".

Planetary Energy Diverters:

Examples:

Low Latitude to High Latitude Mirrors.  If we have a mirror that orbits in low latitudes and diverts energy to higher latitudes, then the diversion works in two ways.  1) Perhaps 20% of the intercepted sunlight is converted to infrared, and more glows than reflects and that has a very limited ability to penetrate to the surface of the Earth.  So, even a mirror to some extent is a shade.

It might be possible to divert some of the light to higher latitudes.  Perhaps a lake or fjord?  If you put floating solar panels on that body of water except for the immediate shorelines, then you could provide power and heat to that community.

Of course weather can block that, so you might want several targets available.  You might want to install an OTEC like power generating capability as well.  https://en.wikipedia.org/wiki/Ocean_the … conversion

The floating solar panels assembly could also be insulating to a degree, so you might have warm water under it that floats on colder water.

The North having abundant cold in the winter, might allow an OTEC like operation 24/7.

*These mirrors might be used in spring and fall to protect crops from untimely frosts.  Good soils may exist where the natural growing season is >90 days.  Modifying 1 or two cold snaps might improve the growing season to 90 days or more.

In this post I have shown the possibility of shining light onto a section of "Ocean Desert" to make  it both grow food and to  sequester Carbon out of the atmosphere. https://newmars.com/forums/viewtopic.ph … 59#p235159  Quote:

If that mirror is shading the planet Earth, then we will have the ~20% heat loss as well.

Data Centers: It is expected that these will get their energy from large solar arrays.  These could on occasion shade the Earth.  When they do, they will cool it.  A lot of people think that Data Centers can pay for themselves.  Also, they will not drain power grids on the Earth itself.

Other Objects in orbit: Space Habitats could also have large shading solar panels.  Beamed power to the surface of Earth, if it shaded the Earth would provide a net cooling, as the beaming efficiency is not high, and much of the intercepted light will convert to heat that does not penetrate to the Earth's surface.

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The accumulation of space junk will require the increasing building of objects in orbit which might be made to shade the Earth.

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Warning! I just added ", Mega Structures" to the topic Title.
I changed it to "Index» Terraformation» Solar Reflections from Orbits to a Worlds Dark Spots, Mega Structures"

This is to cover the "Off Topic" ploy usage.

Agreed Calliban.  I think over time there will be orbital "Filling Stations" which will be more than just Depots.  Certain services such as repairs and feature alterations might be available there.  So, yes high value parts such as engines could be removed for return from orbit, or swapped with other features.  For instance, after initial launch a "High-Starship" may not need 6-9 raptor engines to do its work.

A "Filling Station" near LEO, and one or two between that and the Moon make sense to me.  Then perhaps a "Filling Station" proximate to the Moon.

If the UK provides an upgraded MagDrive and Australia provides an upgraded Neumann Drive those can use space junk sourced propellants.  They could bring precursors for liquid propellants to the filling stations.  They might bring water and CO2, or maybe Methane Oxygen, and Hydrogen.

So, a "High-Starship" might refill perhaps 4 times between Lower Earth Orbit and some kind of Moon orbit.  This should reduce liquid fuel consumptions.

If SpaceX can develop some kind of Mass Driver to get things off of the Moon, it is possible that that could include Oxygen.

But I think a Hydro-Lox tanker based on the 2nd stages of Stoke Space, or Blue Origin may do.

So, the Oxygen for the filling stations could be sourced from both the Earth and Moon.  Possibly Hydrogen as well.

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(th) probed me about mirrors and references: https://newmars.com/forums/viewtopic.ph … 00#p235500

I recall reading a Sci Fi book where a character perhaps named "Ajax", had a homestead in Canada which was lighted by mirrors.  So, the concept is not very new.

It seems that the startup will be very humble in its initial efforts.  Low Earth orbit devices with limited capability.

But ultimately a mirror might be expected to reflect maybe 80% of the light that impinges on it, and redirection may be possible.  If it were a flat mirror with perfect flatness, the light would perhaps not expand that much.  For instance, the value of 1.5 AU would make an ideally placed Mars (At 1.5 AU), receive light attenuated by 1/2 due to spread over distance.  But if the whole beam hit Mars, then Mars would get the ~80% increase in lighting for the surface area that the light impinged on.

Light hitting a mirror at geosynchronous would have to come back from that mirror to the Earth at some location so the spread would be about 2x the distance to geosynchronous, presuming the mirror is orbitally behind but not occulted by the Earth.  So, far less than how much it would spread in going to Mars.  So, just for giggles let's say a bit less than ~80%.

As far as levering this thing to point accurately, I guess mount it on a large mass or use gyroscopes.

If you wanted light intensities > ~80% then you could overlap the output of 2 mirrors to the same location and get ~>160% the light of noontime, more or less.

If you wanted to focus the mirror, I suspect that it can be done.

One thing I could annoy you with would be putting mirrors on most of the near side of the Moon and having them on actuators so that they could focus on the Earth.  I got an honored member here to insinuate I was an idiot when I last suggested that.

Mirrors would perhaps be more practical at first to power solar satellites, and for those Satellites to beam infrared lasers to other equipment in orbit such other Satellites and maybe electric driven spacecraft such as Ion propulsion.

The value of beamed power is that a spacecraft can have a "Tuned" solar panel that is tuned for a particular wavelength of light.  Delivery efficiency might be about 60%.  This then allows a spacecraft to have a power supply of a lesser inertia.  The provider being massive sends the power and the receiver does not have to propel the sender.

One side property of mirrors in space would be to be able to occult the Earth.  If they pass between the Earth and the Sun, they may lessen the amount of sunlight that the Earth receives at one location.  If that were to be sent to another location on Earth, then that does not really warm the Earth.  If the energy from the mirror is used to power things in orbit, then the Earth is cooled.

Now there is the question of future space junk.  I don't think we will be dumping junk into the atmosphere soon but will be recycling it.  As recycled it could be made into many things, and perhaps mirrors.

Yes astronomy will suffer, but we will have to see them get many more and bigger space telescopes as compensation.

This little company wants to attempt mirrors in space.  Who am I to say no?  And in the first post my point was the person does not own space and does not own people and especially does not own me.  If you peer into the intentions of leftist people you will come to understand that they intend to own the people, and they imagine themselves as the enlightened and worthy ones who shall own us and all the products we might produce.

Mirrors could certainly be of value on the Moon and for Mars.  So, I don't mind a little practice with them.

Here is something that is more likely sooner:  "Elon's Ingenious AI Satellites: Powering Earth FROM SPACE?"

I can suspect that the above query is already being twisted to emphasize astronomers' concerns, and the related issue of global warming.

That is not what I want to discuss!  High probability this is Anti-Elon Leftist guidance.

Modified the query: "Description, Elon's Ingenious AI Satellites: Powering Earth FROM SPACE? 1d ago,"

Impossible!  The discussion I want to have is about data centers in space and these verbal idiots are determined to have the conversation about global warming.

Anyway because of them I cannot get that video.  I will just have to say it myself.  The Satellite network in space will draw power from the sun and so then not draw power from the Earth's grids (Power Plants).

This inevitably will lead to space junk.  Rather than dumping it into atmosphere, it will need to be harvested and recycled.  Not all of it could be used for original purposes, and perhaps some could be made into mirrors or other things.

Elon Musk has proposed eventually making satellites on the Moon and launching them with Mass drivers.  Again, after being done with their original purpose, the mass can be repurposed again and again.

Mirrors for the Earth could be created in certain instances.

I wonder (th) did you read any of the other posts in this topic before you challenged the legitimacy of the creation of this topic?

Such as how to increase food production?

But don't worry, none of us do everything perfect all the time.  Certainly not me.

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I choose not to think of Earth or Mars, but rather, expansion into the solar system when circumstances make it viable.

Before the North Polar ice cap might be colonized, then Korolev might be done: https://en.wikipedia.org/wiki/Korolev_(Martian_crater)  Image Quote:

At a similar time then a small part of Hellas might be done: https://www.humanmars.net/2019/04/map-o … water.html  Image Quote:
At about 60 degrees longitude and south of 30 degrees latitude, part of Hellas shows hope of buried water ice.
I have prepared a method for a Hellas without ground ice but it seems there may be some ground ice in places.

And the rift valley show hope, between 90 degrees and 60 degrees longitude and just south of 0 degrees latitude.
Whttps://www.smithsonianmag.com/smart-news/astronomers-discover-hidden-water-in-the-red-planets-grand-canyon-180979267/e have reason to believe that there are significant ice deposits in "Candor Chaos".  Quote:

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This topic is mostly about orbital mirrors adding light to areas of a world that may benefit from it.  These may do.

I expect such a orbital system and the things that support it to primarily be made of materials from Phobos and Deimos.

While Candor Chaos might do well with solar panels that are relatively flat to the surface, I intend that a wedge type solar panels might be used in both Korolev and Hellas.

Some experiments have been done on Earth, with Bifacial solar panels.  A wedge solar panel system simply opens one end of the structure.

From post #29:

By rotating the structures 180 degrees we can make them suitable for Korolev Crater.

Possibly to cover the entire ice mass of the crater.  The solar panels could be refrigerated using heat pumps running directly from the electric power of the solar panels.  The excess heat may be put to other services such as greenhouses, and artificial lakes.

While naturally Korolev would have very long dark winters, with orbital mirrors this does not have to be so.

But I see the orbital structures made of Phobos and Deimos being more important.  The deltaV of them is less to be in communion with Earth/Moon than the surface of Mars is.

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The Saudi seem to be involved with an interesting process for cooling solar panels.

https://www.sustainability-times.com/en … gy-output/  Quote:

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From post #29:

So, we have two methods to collect moisture from the Mars atmosphere, and in one case it may increase the output and longevity of solar panels.

The salt bed I suggested needs an independent robot to collect moisture from the salt periodically.  However, the Saudi method with the moisture collector behind the solar panels, then releases moisture on the heating of the solar panels, and that moisture could be automatically collected at the tops of the solar panels.

Now then a Mars tree could do various manipulations.

It could split the water into Hydrogen and Oxygen and release them to atmosphere.  The Hydrogen would be a greenhouse gas but would rapidly leave the atmosphere.

Or you could make hydrocarbons and Oxygen (Also using CO2) and feed it to microbes.  Mushrooms could grow on the residue of bacteria.
The organic process would probably leak greenhouse gasses by intention or as a natural imperfection of a process.

So, these trees could in fact produce product, Algae, Yeast, Mushrooms perhaps.  Also, electricity also Methane could be created, and Oxygen created.

And it should be reminded that water is to be produced as well, so humans could live near these "Forests".  The "Forests" can be at very low altitudes like Hellas and the Northern plains.  These places provide relatively better radiation protections.

Electrical conductors and pipelines could be involved in networking these outputs to a useful purpose.

So, it would make a great deal of sense to use mirrors in orbit to add more photons to the processes of these "Trees".

The trees will still need robot tenders, to clean dust off of the solar cells and for other purposes.

So, this might be a pretty useful component of a method to make Mars to be alive and reasonably productive.

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I would hope to have "Mars Trees" eventually wherever temporary ice caps form.  The vertical walls might thaw much sooner than the ground that they are on so this might allow an early spring thaw.  Of course, the structures will have to endure a Martian winter with CO2 condensate perhaps.

We could hasten the thaw of the temporary ice caps with orbital mirrors.  We would be shining light onto vertical solar panels mounted on the "Mars Trees".

As for the South and North Ice caps, I suggest only warming the south cap to vaporize the permanent CO2 ice cap content.

As for the North I would want to try to melt a little sea all the way around that North ice cap.

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https://astrobiology.com/2025/03/marss- … neath.html
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So, I am hoping for direct melting under ice.  That is you might create an aquifer in the ice cap by bombarding it with microwave energy, and sunlight from mirrors.  Rivers can flow on Mars if they are ice covered.

So, I hope to produce a liquid water sea ringed in the low area around the ice cap.  The Sea will be ice covered, but may support life under the ice.

So, indeed I intend to promote the idea of Mirrors made from Phobos and Deimos, to assist in making Mars more habitable.

Keep in mind that in the deep winter of Mars mirrors will be melting this ice, not just in the summer.

As for evaporation, it has no place to go but onto one of the ice caps.

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This topic has a multiplanetary range, but ultimately it is more about being able to redirect energy to suit human desires than anything.

In post #11, I mentioned making wind breaks to hang solar panels on, in Hellas.

Elsewhere (th) is working on "Trees" for Mars: https://newmars.com/forums/viewtopic.php?id=11237

This is fine as we may get multiple solutions.

I start with bulk materials from Mars in the case of Mars:

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https://www.zmescience.com/science/mars-brick-is-cool/
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So, I would be thinking of a form of metal perhaps into which you could compact Mars soil to make walls to serve as the "Trunks" of "Trees".

https://happho.com/rammed-earth-construction-house/
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The metal form would be reusable.

My preferred pattern at this time is two walls at a possible (???) degrees of attachment of one end of each wall.

This may, among other things serve as a "Wind Fence" and may somewhat prohibit "Dust Devils".

Dust collected may be converted to something else that will not blow in the wind.

The "Salt Pad" is to be in the shade almost always, and is intended to be cold and to collect moisture.

Robots can microwave it to release water vapor, and a vacuum can collect and condense it into water.

I you have water, and CO2 and Nitrogen, and electricity from sunlight then you can synthesize both a fuel and Oxygen to feed microbes with.

By filling Hellas or other areas with such "Trees" we are increasing the surface area of Hellas, and then so dividing the sunlight.  While the solar panels may be warm when illuminated, they may have offsets to allow air to pass behind them.  The walls of the trees will tend to be cold.

So, the wind break effect and the coldness of the air coming from the walls, may tend to discourage dust devils.  By arraigning that and by collecting the dust into larger objects we may discourage Global Dust Storms.

Mars Global Dust Storms tend to erupt once every 3 Martian summers, I believe.

So, for at least 2 out of the 3 summers we can shine light on the "Trees" in Hellas from orbit.  In the other seasons we can do that as well.
This should increase productivity.  But of course the goal is to quell Global Dust Storms, so this has to be moderated carefully to avoid those.

I think that the other factor of Mars Global Dust Storm would be a cold Mars Winter in the North Hemisphere.

Using mirrors we can warm up the North polar areas to inhibit that factor.  While doing that we can also do "Mars Trees", or even melt some water from the North Ice cap.

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This is a bit old and certainty speculative: https://www.youtube.com/watch?v=Y-SY9hJtIYY
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Someone named Gary is mentioned.

If it is like this then it would be a cousin to Stoke Space 2nd stage.

I would like that. 

If Starship and "Jarvis", and Stoke Space are all a little different, then they may each be able to be good at different things.

We are very lucky if we get 3 or more fully reusable options that are "Friendlies".  (Sort of Western).

My opinion is that they should enlarge the base, so that the thrusters will be exposed during launch and so that the size of the heat shield can be larger.  But I am not a great source of wisdom on this things.  I just think that they may be able to use the 2nd stage thrusters during the flight up before separation from the 1st stage, and I hope that could reduce gravity losses.  Hopefully it would not burn the 1st stage too much.

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