It uses a single pressurized elevator tube to connect to a module at the center of gravity (C.G.), and uses a weighted counter-balance on a long truss (R2 = 240m or so). In the same way that the keel of sailboat usually masses about 25% of the boat’s mass, the counter-balance in this case is also about 25% of the station mass.
We can quantify the cost of spin up/down, by assuming the construction vehicle is used for propellant service as well. For the 8-hab station size, there is about 12 equivalent habs worth of station mass at the perimeter; the counter-balance will double that to 24 (it’s lighter but moves faster).
ISTM that for the price of doubling the length of your access tube, you can profitably switch from the "hammer" configuration to the "bolas" configuration.
The counter-balance should have 3x the moment of inertia as the "hammer head." It's 1/3 the mass but it's on a lever arm 3x as long, and moment of inertia goes as mr2. So this value should be 48 EHWOSMATP (equivalent habs worth of station mass at the perimeter).Of course you would quite logically want to put your spin-up / spin-down thrusters on that long lever arm, giving a 3x reduction in propellant use. But you're still yielding a total efficiency multiplier of 3/4 = 75%, meaning the "hammer" configuration needs 33% more fuel per spin-up/spin-down vs. the traditional "bolas" or "toroid" configurations.
Note that Voyage puts the thrusters on (downward hanging) "towers", but they are rather short, presumably so they don't hit slowly departing escape pods. The escape pod issue is still relevant for hammers, but since the tower is 180 degrees away, it is less of an issue.
... they don't seem to have a good grasp of how out of touch their two big ideas are (Gateway station and Voyager station). ...
Quote from: high road on 01/03/2021 10:14 am... they don't seem to have a good grasp of how out of touch their two big ideas are (Gateway station and Voyager station). ...What do you think is wrong with their ideas, specifically?I think the initial size needs to be for a passenger load of 1 Starship/week or equivalent. That's probably 160 guest plus crew.
Thier station should be located at EML-1 in a Sun Synchronous Precessional Orbit. [SSPO]
Those videos above, about welding, have been turned into "Private".
The reason for an EML-1 location has been discussed elsewhere.
Before building a rotating station using our favorite ideas, if you're going to build a rotating space station that is specifically for tourism, then you should be identifying WHAT such tourists would not only want, but enjoy paying for. Since unless you can create an overall experience that tourists not only like, but LOVE, such a venture won't survive.Here, I'll go first:A. One of the supposed benefits of being in space is the ability to observe space, but in order to do that on a rotating space station the tourist must have access to a non-rotating part of the station. And don't count on them wanting to watch space on screens from the comfort of their rooms, because they could do that on Earth for a LOT less money. No, they need to see non-rotating space with their eyeballs, which means zero-G.B. Many have thought that bouncing around in zero-G would be an attraction, and no doubt it will be for a subset of visitors. So what do they want to do, and how much room and equipment do they need?C. Member "high road" mentioned a pool, and that would be interesting. Not sure if a Earth-gravity pool in space would be a MUST EXPERIENCE attraction, but maybe a less-than Earth-gravity pool would be? Don't know, looking for feedback from swimmers.OK, what else would be fun in space for tourists to do on a one week visit?
Before building a rotating station using our favorite ideas, if you're going to build a rotating space station that is specifically for tourism, then you should be identifying WHAT such tourists would not only want, but enjoy paying for. Since unless you can create an overall experience that tourists not only like, but LOVE, such a venture won't survive.
If you're going to build a rotating space station that is specifically for tourism, then you should be identifying WHAT such tourists would not only want, but enjoy paying for. ...A. One of the supposed benefits of being in space is the ability to observe space, but in order to do that on a rotating space station the tourist must have access to a non-rotating part of the station. And don't count on them wanting to watch space on screens from the comfort of their rooms, because they could do that on Earth for a LOT less money. No, they need to see non-rotating space with their eyeballs, which means zero-G.
Zero-gee sports, not just floating in zero gee.