Using the ET as a rough estimation of LOX/LH2 mass/volume ratio, it has 358.69kg of propellant per cubic meter.
Alright, this is what I'm envisioning; containers like
this (for ground fuel containers) would be good as semi-permanent structures. While the miner can produce smaller drums that can be used for packing fuel to orbit.
Now I am starting to think that for the 'smaller drums' we can actually use the fuel cargo supplied with UCGO. Since like ~9 of them will fill up the fuel tanks of DGIV, they should be enough. Anyway, if we had to haul them, we would have to make them fit in cargo bays and well, more hassle then I think its worth and redesigning the wheel I think.
Summary: the miner should produce UCGO fuel cargo for simplicity sake.
The larger drums (since I am assuming, alteration of Arrows hover engines to permit landing) should fill up 800,750kg of fuel with say, 5 drums.
Assuming 1.25:1 ratio for width/high large drum size and 160,150 kg for drum,
(don't mind my scribbles)
[MATH]\pi hr^2 = [/MATH](volume of container)
[MATH]2r=1.25(h)[/MATH]
[MATH]\pi h(0.625h)^2 = .39\pi h^3[/MATH]
[MATH]~.39\pi h^3 = ~446.49[/MATH] ( = (1/5)/358.69 of 800,750kg)
So the large drum should be;
h = ~7.14
r = ~4.46
Now then, I think either we can do 2 things, be realistic and set the miner (or other vessel) to have fuel containers fill as a function of time, or we can just have the oil drums set to act as UCGO fuel stations.
