Quote from: Barley on 10/02/2019 05:39 pmYou can also look at this the other way round. If all your O2 is a byproduct of the solar panel plant you will not launch many spaceships.This is a minor optimization barely worth mentioning, not an example of an integrated manufacturing system using every part of the pig but the squeal.I am not looking at it that way. I am looking at LOX production. Si is just a sideproduct that may or may not be useful.
You can also look at this the other way round. If all your O2 is a byproduct of the solar panel plant you will not launch many spaceships.This is a minor optimization barely worth mentioning, not an example of an integrated manufacturing system using every part of the pig but the squeal.
Some comments from Dr. Zubrin below. I'm not too concerned about ejecta as I'm assuming they'll eventually have prepared landing pads by the time a base exists. And with on-orbit refueling, SpaceShip should be able to get back to Earth without lunar ISRU.....
Quote from: guckyfan on 10/02/2019 06:31 pmQuote from: Barley on 10/02/2019 05:39 pmYou can also look at this the other way round. If all your O2 is a byproduct of the solar panel plant you will not launch many spaceships.This is a minor optimization barely worth mentioning, not an example of an integrated manufacturing system using every part of the pig but the squeal.I am not looking at it that way. I am looking at LOX production. Si is just a sideproduct that may or may not be useful.Large quantities of surplus O will be a byproduct of most ISRU actitities. Hydrolox engines burn fuel rich mixture so they don't need all the O from electrolysis process. Reduction of iron oxides by applying heat and H results in Fe and H20. The H is recycled by electrolysis resulting in surplus O.
I'm not SS could land on moon using Raptor as SS is 1/6 weight on moon. Raptor would need to throttle to 1/6 of its earth landing power setting.
Then F9 can't land on earth, as the thrust of one merlin is considerably more than the 20 tons dry weight of the booster.
I'm not SS could land on moon using Raptor as SS is 1/6 weight on moon. Raptor would need to throttle to 1/6 of its earth landing power setting.Placing smaller landing engines near top of SS and have them point out at angle would help reduce issue with debris being kicked up.
Why would you need the vacs to throttle anyway? Once in orbit you can control with burn time.
Quote from: Barley on 10/02/2019 05:39 pmYou can also look at this the other way round. If all your O2 is a byproduct of the solar panel plant you will not launch many spaceships.This is a minor optimization barely worth mentioning, not an example of an integrated manufacturing system using every part of the pig but the squeal.Large quantities of surplus O will be a byproduct of most ISRU actitities. Hydrolox engines burn fuel rich mixture so they don't need all the O from electrolysis process. Reduction of iron oxides by applying heat and H results in Fe and H20. The H is recycled by electrolysis resulting in surplus O.
I will try to clarify my idea by picture.1/Moon Starship weight during launch time will be same as regular SS.2/The only modification required is moving bulkheads several feet up, eating up a little bit crew space.3/Increase refuel capacity will be used just on LEO4/Save on refueling trips, since right now refueling will have happen in high elliptical orbit, decreasing tanks capacity for refueling.Here is picture
Quote from: raketa on 10/04/2019 08:58 pmI will try to clarify my idea by picture.1/Moon Starship weight during launch time will be same as regular SS.2/The only modification required is moving bulkheads several feet up, eating up a little bit crew space.3/Increase refuel capacity will be used just on LEO4/Save on refueling trips, since right now refueling will have happen in high elliptical orbit, decreasing tanks capacity for refueling.Here is pictureBut refueling higher is pretty simple and more effective. In fact, for maximum efficiency you want to refuel in low lunar orbit rather than elliptical Earth orbit. This means sending 2 ships, but they don't have to be fully refueled in LEO.
Quote from: envy887 on 10/07/2019 11:52 amQuote from: raketa on 10/04/2019 08:58 pmI will try to clarify my idea by picture.1/Moon Starship weight during launch time will be same as regular SS.2/The only modification required is moving bulkheads several feet up, eating up a little bit crew space.3/Increase refuel capacity will be used just on LEO4/Save on refueling trips, since right now refueling will have happen in high elliptical orbit, decreasing tanks capacity for refueling.Here is pictureBut refueling higher is pretty simple and more effective. In fact, for maximum efficiency you want to refuel in low lunar orbit rather than elliptical Earth orbit. This means sending 2 ships, but they don't have to be fully refueled in LEO.-No because you have to speed up to high elliptical orbit not just fuel but also dry weight of tanker.1/LEO Refueling-Tanker could deliver 150 t fuel to LEO-In LEO you need 11 refueling mission 11*150 = 1650t-This 11 mission will fill bigger tank(by 30%) but will be able to fly to Moon and back-To fly from LEO to Moon you need delta ~10km/s-SS on LEO 1650t-SS on Moon ~300t (delta v 6.4 km/s)-SS back LEO ~150t (delta v 2.3 km/s)2/High elliptical orbit 10km/s-required delta v 2.3km/s-SS tanker on LEO 100+150t= 250t-SS tanker on HEO 250t - 115t = 135t- 22 * 35 = 800t(fuel)You need 22 refueling missionsFly from HEO to Moon and back you need 7.5kms-SS on HEO ~900t-SS on Moon ~300t (delta v 4.1km/s)-SS back on LEO ~200t (delta v 2.3 km/s)It will required 50% less refueling missions, if SS tank could be stretch internally by 30%, just using crew space.
Quote from: envy887 on 10/07/2019 11:52 amQuote from: raketa on 10/04/2019 08:58 pmI will try to clarify my idea by picture.1/Moon Starship weight during launch time will be same as regular SS.2/The only modification required is moving bulkheads several feet up, eating up a little bit crew space.3/Increase refuel capacity will be used just on LEO4/Save on refueling trips, since right now refueling will have happen in high elliptical orbit, decreasing tanks capacity for refueling.Here is pictureBut refueling higher is pretty simple and more effective. In fact, for maximum efficiency you want to refuel in low lunar orbit rather than elliptical Earth orbit. This means sending 2 ships, but they don't have to be fully refueled in LEO.This depends on how you define efficiency.Maximum efficiency in terms of payload out per fuel in means reducing effective dry mass, which means filling up all the way is always better if you have a use for propellant at your destination and can transship cargo - or your propellant is your cargo.A minimal number of SS launches (10) gets you 10 tons on the moon. (1t/launch)Approximately double the number of launches to 20, and you get 100 tons. (5t/launch)Double it again to 40, and you get 800 tons. (20 tons/launch)At this point diminishing returns kick in - doubling again will only get you to ~25 tons/launch.As sketched earlier in the thread.