Quote from: Chris Bergin on 05/31/2012 09:34 pmNicely dealt with Tom!Thanks, (feeling sheepish) my first reply was not as tactful. Sometimes, I read something over after I post and realize I could have done better.
Nicely dealt with Tom!
Quote from: TomH on 05/31/2012 09:45 pmQuote from: Chris Bergin on 05/31/2012 09:34 pmNicely dealt with Tom!Thanks, (feeling sheepish) my first reply was not as tactful. Sometimes, I read something over after I post and realize I could have done better.I am damn glad you made that point. Too often those flaws in STS go by the way side.We should never forget.
Quote from: FinalFrontier on 06/01/2012 04:02 pmQuote from: TomH on 05/31/2012 09:45 pmQuote from: Chris Bergin on 05/31/2012 09:34 pmNicely dealt with Tom!Thanks, (feeling sheepish) my first reply was not as tactful. Sometimes, I read something over after I post and realize I could have done better.I am damn glad you made that point. Too often those flaws in STS go by the way side.We should never forget. On the flip side approximately 900 people did get up there and back just fine. What happens too often is people assume that if a vehicle sits on top of a rocket and has a LAS that there is no danger. That's wrong.
+1.Placing the craft on top does remove the TPS debris problem, but you get new ones to manage. For example, with the tall skinny configuration the spacecraft adapter needs to be strong enough to deal with all wind/turbulence the stack will face with a 10 t aerodynamically complex load on the far tip.The wind tunnel testing of the integrated stack that's going on now (or completed) should tell them what they need to know. But I wonder if the operational DC could have wind launch criteria limitations that will make it look less competitive than, say DragonRider. Remember, for an ISS crew launch you have to launch exactly on time; no waiting for favorable winds. It will probably have runway abort cross-wind launch criteria too, just like the Shuttle orbiter.
Quote from: adrianwyard on 06/01/2012 04:33 pm+1.Placing the craft on top does remove the TPS debris problem, but you get new ones to manage. For example, with the tall skinny configuration the spacecraft adapter needs to be strong enough to deal with all wind/turbulence the stack will face with a 10 t aerodynamically complex load on the far tip.The wind tunnel testing of the integrated stack that's going on now (or completed) should tell them what they need to know. But I wonder if the operational DC could have wind launch criteria limitations that will make it look less competitive than, say DragonRider. Remember, for an ISS crew launch you have to launch exactly on time; no waiting for favorable winds. It will probably have runway abort cross-wind launch criteria too, just like the Shuttle orbiter.That "Main Propulsion System" can be used for abort and for cross range cruising. Will the craft normally glide to a landing unpowered? In a sudden and stiff crosswind, would it be possible to engage those engines and cross vector (crab) into the crosswind just like airplanes do all the time? To what degree could it crab unpowered?
If, however, DC were chosen as the backup, is there not more likelihood that it is a vehicle which could be launched from either LV?
1. Who would pay for it?2. What is the likelihood that NASA would approve it?3. Would it give DC an edge in the competition?4. What are the technical issues of putting DC on F9? I know there's aerodynamics, mating, guidance interface. What about mass capability? Others?5. Could such a scenario even give DC a boost in its chances as being chosen as the primary?
SNC's DC provides a spacecraft that is much more dissimilar to Dragon than is CST-100.
The video says "No solid strapons" and "no abort blackzones." They are responding to ATK on the black zones and taking shots at Boeing for the solid strapon (the CST-100 uses the Atlas V 412; DC uses the Atlas V 402).