Monday, August 27, 2018

What is This World Coming to?


I firmly believe in climate change. In my mind, it is here, and it’s going to get bad.

But I’m not here to debate that with anyone. So, for the purpose of this series of blog entries, let’s say I’m trying to figure out what could happen (climate-wise) in the next 50 years, and how it will effect the people who have to live through it. Well, try to live through it.

The sea level will rise. There has been and still is a lot of water on the Earth that is not located in the seas. It’s not a liquid, it’s solid in the form of snow and ice. Glaciers, sea ice, and so on. This has all been melting at an increasing pace, and probably will continue until snow and ice become rare items.

You can already see the sea level rising, if you look; Miami FL has streets that are underwater during high tides. Miami Beach, located on a barrier island that barely qualifies as dry land, is quietly raising its streets, particularly the ones that run along the edges of the island.

After Hurricane Katrina hit New Orleans, there was much talk of how badly the shoreline was being eroded. If I remember right, there is an oil refinery or some such that was built on the shore. Now it is pretty much an island, and the road leading to it may or may not be passable during high tides. Those tides even reach 5 or 10 miles inland, making it hard to get in or out of small towns that dot that road. The road, I understand, has been raised in a lot of places, making it even harder to navigate in those small towns.

Parts of Amsterdam in The Netherlands are 18 feet below sea level. Much of The Netherlands consists of land ‘reclaimed’ from the sea and thus below sea level. They did this by building dikes, dams and canals to control where the water could go. This will be an ever increasing chore, as the sea rises.

So I find myself wondering, what happens when the sea rise reaches that critical point, whatever it is? Will The Netherlands continue building their dikes taller, until they loom and cast an ominous shadow over the land they are intended to protect? Is that possible? Does it make more sense to raise the land they are living on? Is that possible?

At what point do people simply give in to nature and move to higher ground? Do those who are displaced get any assistance from their government, or do they have to abandon the home they’ve had for who knows how long, take what they can to some other place, and try to start over again? I suspect the latter, because the former would probably bankrupt any government.

Even if Earth’s population doesn’t grow beyond what it is now, it’s possible the concentration of that population will increase, because there could be less land for us to live on.

Well, with the next entry, we’ll continue with the water theme. Yes, there is more about water to think about.

Friday, August 10, 2018

Martian Shelters Summation


Okay, so that was pretty much all I found for ideas about Martian shelters: tents of various shapes made of multiple layers of flexible plastic and insulation (probably foam), either buried in the sand or not; tunnels and rooms dug deep underground by robots; and a top-side shelter shaped like half a bagel with a layer of ice between the sheets of plastic.

I did see some reference to making a spun glass (fiber glass) insulation from sorting the Martian sand and melting a particular type of that sand. I’m not sure that would be available for the very first shelters, but maybe it would be a useful building material later on.

For that matter, rocks have been used to build human home for centuries, perhaps millennia. Sand could be combined with other materials to make a type of cement or even mortar. That assumes the colonists can find a supply of calcium silicate nearby, or some other binder to use. If not, they could use polymers, but that would need to be shipped to them from Earth, or they would have to make it on Mars, and I have no idea how complicated a process that might be.

One other idea, briefly mentioned, was to dig holes into a large boulder to create a small shelter, perhaps a type of emergency shelter. I kept thinking about today’s ‘tiny homes’ and thinking a sufficiently large boulder might make a nice small home for someone who really liked his/her privacy.

So, if you are going to be one of those first colonists sent to Mars, don’t expect a mansion. Of course, if you were expecting a mansion, you probably wouldn’t be one of those chosen to colonize Mars. Or anyplace else.


http://www.imagineeringezine.com/e-zine/mars-makeshelter.html
https://www.nasa.gov/feature/langley/a-new-home-on-mars-nasa-langley-s-icy-concept-for-living-on-the-red-planet
https://phys.org/news/2016-12-nasa-ice-house-mars.html

Wednesday, August 1, 2018

Martian Shelter 5


I was beginning to think we had run out of ideas, but it turns out I was wrong. So, how about an ‘ice home’? They’ve been used in the Arctic Circle for centuries, haven’t they? But, the ones proposed for Mars are a bit more complicated than igloos. They are, once again, inflatable, but... in the shape of a doughnut. The body of the doughnut would be where people would live and work.

The ‘skin’ of the doughnut would be a double-wall, flexible, of course. The interior wall would hold in the air and provide the space for people to occupy. The space between the 2 flexible skins would be filled with water and allowed to freeze. That outer wall and the ice under it would keep the radiation out, and protect the inner sections from any nasty weather Mars can produce.

Despite recent findings of water of Mars, it is not nearly as omnipresent as it is on Earth, so where does that water come from? No, it won’t be shipped from Earth. What they would ship from Earth is robots with the equipment to find, mine, and transport the water to the shelter area so it could be melted, pumped inside the walls and allowed to re-freeze.

Presumably, this store of water could serve a second purpose; that of being turned into fuel when it was time to leave. To me, this seems counter-productive. It assumes the people will be leaving, abandoning their colony to return to Earth. Even if they were ‘only’ there for a shift of a couple years, wouldn’t more people be expected to arrive to take over, like is done with the space station? On the other hand, keeping options open can be a very good idea.

Of course, with proper timing, those robots could be sent out to mine more water to replace what’s been turned into rocket fuel. You’d just need to make sure the equipment doesn’t get clogged with sand in the meantime.

The biggest drawback I see to this design is that it could take 400 days to fill and freeze the shell. So those robots had better know what they are doing in order to get it ready before humans start arriving.


https://www.nasa.gov/feature/langley/a-new-home-on-mars-nasa-langley-s-icy-concept-for-living-on-the-red-planet