Artificial gravity would make the design of the habitat much more difficult from an engineering point of view. It's easy to design an habitation module if it weights nothing, but as soon as you add gravity to the picture, suddenly you need to think completely differently in terms of structural engineering. You're basically building a house, not a can box. And this house must be light enough to be sent in space.Also, artificial gravity puts much higher requirements in the structural integrity. I mean, imagine you suspend the habitation module on a cable. If the cable breaks, you'll be lost in interplanetary space or smashed into Earth's atmosphere. That perspective could make you feel quite uncomfortable.That's how I explain it hasn't been done yet, anyway.
Artificial gravity would make the design of the habitat much more difficult from an engineering point of view. It's easy to design an habitation module if it weights nothing, but as soon as you add gravity to the picture, suddenly you need to think completely differently in terms of structural engineering. You're basically building a house, not a can box. And this house must be light enough to be sent in space.
Also, artificial gravity puts much higher requirements in the structural integrity. I mean, imagine you suspend the habitation module on a cable. If the cable breaks, you'll be lost in interplanetary space or smashed into Earth's atmosphere. That perspective could make you feel quite uncomfortable.That's how I explain it hasn't been done yet, anyway.
Actually, I think that making people more comfortable is a function in itself.
But coming back to the question of what would be the research value of an artificial gravity station:We obviously have a lot of data for living in 1g, and we have a reasonable amount of data for surviving in 0g. But we have literally zero data for anything in between. Can health problems associated with living in 0g be mitigated when we reach 0.3g, 0.5g, 0.9g? We have no idea. Is mammal reproduction possible at Mars or Lunar gravity? Again, we don't have the slightest idea. That is why such a station would be of huge research value.There is going to be a small mission by DLR to research intermediate gravity levels: EuCROPIS. Even for this relatively limited mission there is a large interest for participation of research institutions.
I really don't get it. What would a station with gravity be good for? As a colony, with the aim to become self sufficient? As a service station? Servicing whom? Servicing spacecraft will likely be easier in zero gravity. Servicing people? Again what for?Washing clothes, taking a shower? That can be done on earth or if you really want in zero gravity, too.For doing research on plants in Mars gravity? Go to Mars, do it there.Maybe one thing. You can have different gravities from near zero to ~1g. Then you can do research on plants and animals in varying gravity.
List of requirements so far,A) 0G section is stable and does not rotate. 0G & 1G sections are linked such that crew can easily move between them in their standard clothing without using any system that has to attach or detach from the different sections.
1G section capable of less gravity such that the gravity of the Moon and Mars can be simulated. 1G section contains the food production & living areas along with work areas such that as much as is possible the astronauts spend most of their time here.
B) Use water as the radiation shielding. (Water can be built up over time with each visit.)
C) Use water as the station keeping fuel.
D) Grow as much food as possible.E) As much as possible use plants/other natural processes to purify waste including waste water.F) As much as possible use plants/other natural processes to produce breathable air.
G) The craft that transports the astronauts to the space station is able to carry all of the water & food required for a stay of 1 year along with any of the other consumables they may require. ossible to build a human friendly space station for a reasonable cost?
Not that I am convinced we need one. But what about a long cylinder spinning around its short axis? The forces involved should not be too hard to handle.
Quote from: guckyfan on 02/17/2014 08:00 amNot that I am convinced we need one. But what about a long cylinder spinning around its short axis? The forces involved should not be too hard to handle.This design has been proposed before, as a huge colony style. Very expensive and maybe in the (distant) future. I would like to keep this thread focused on near-term, low-cost designs.
But, this is where the light bulb went off, and I realized that there could be much more interest in funding this style of space station just because of the unique ability to study living at these lower gravity simulations. Now the increased cost can be justified!
The thread premise is wrong. There is no need for such a station in the near term
A facility to test life processes in lower gravity is something we're in desperate need of, but for now it would only require an ISS module.
I am fascinated with the idea of generating gravity on a space station. IMO the space facilities created thus far have not been human friendly, with extremely good reason. However if we are to truly step out into space in a big way we need to mitigate to the greatest extent three problems.
<Lots of extraneous detail snipped>So is it possible to build a human friendly space station for a reasonable cost?
Most plants don't grow in zero g environments. A small artificial gravity would increase sustainability of the station by allowing the occupants to grow their own food.
Artificial gravity would make the design of the habitat much more difficult from an engineering point of view. It's easy to design an habitation module if it weights nothing, but as soon as you add gravity to the picture, suddenly you need to think completely differently in terms of structural engineering. You're basically building a house, not a can box. And this house must be light enough to be sent in space.Also, artificial gravity puts much higher requirements in the structural integrity. I mean, imagine you suspend the habitation module on a cable. If the cable breaks, you'll be lost in interplanetary space or smashed into Earth's atmosphere. That perspective could make you feel quite uncomfortable.
I am beginning to see advantages of alternate gravity simulations. There are basically two approaches, one to spin the system at the appropriate rate, and the other is to add additional modules with shorter cables to achieve the desired lower g. The elevators could be transferred to the various modules as required.But, this is where the light bulb went off, and I realized that there could be much more interest in funding this style of space station just because of the unique ability to study living at these lower gravity simulations. Now the increased cost can be justified!
Quote from: IRobot on 02/17/2014 11:57 amMost plants don't grow in zero g environments. A small artificial gravity would increase sustainability of the station by allowing the occupants to grow their own food.I did not know this. I thought they grew somewhat distorted but otherwise edible. I think there was a report that they have grown tomatoes on ISS without AG. But finding the minimumg for good growth would be an interesting use for this station.
Quote from: Roy_H on 02/17/2014 12:34 pmQuote from: guckyfan on 02/17/2014 08:00 amNot that I am convinced we need one. But what about a long cylinder spinning around its short axis? The forces involved should not be too hard to handle.This design has been proposed before, as a huge colony style. Very expensive and maybe in the (distant) future. I would like to keep this thread focused on near-term, low-cost designs.Maybe I used a wrong expression? English is not my first language. I am thinking of a 120m or more long cylinder, maybe 8 or 10m wide or whatever can be built easily. Spin it around its middle - at 60m from each end. The ends of the cylinder have the highest gravity. It would be 20 storeys 3m high from the middle up each with higher gravity until you reach the end of the cylinder. I was not proposing an O'Neill-Cylinder.I hope I have made myself clear. I don't think this is a complex and expensive design. It does have the advantage of providing lab space for each gravity from near zero to max.