Quote from: sdsds on 08/26/2024 09:46 amTry, "Companies that contract with NASA often lose money in the process." Is that a good thing?It really falls on NASA to mostly enter into contracts where the contractor has a good chance to make a profit. Jonathan Goff is going to try to make the case that there's a contract like that out there somewhere with a non-Boeing, non-SpaceX commercial crew service provider. I sincerely hope he succeeds!The alternative is "companies are guaranteed to make money even after 3x repeated failure at a high bid price".FFP should be a good way to make money, but it can't be guaranteed or else it becomes a freebee money program. There's got to be a line, and Boeing is waayyy past that line.
Try, "Companies that contract with NASA often lose money in the process." Is that a good thing?It really falls on NASA to mostly enter into contracts where the contractor has a good chance to make a profit. Jonathan Goff is going to try to make the case that there's a contract like that out there somewhere with a non-Boeing, non-SpaceX commercial crew service provider. I sincerely hope he succeeds!
I know a SpaceX monopoly isn't ideal, but it's not meaningfully worse and possibly better than SpaceX + non performing company eating money. The answer to SpaceX monopoly is to give companies like Rocket Lab or Sierra contracts that will allow them to grow, not to throw good money after bad with Boeing.
......I think the problem was that in 2014, Boeing's reputation as the premier Aerospace engineering company had not yet been seriously tarnished.
Quote from: Vultur on 08/26/2024 07:05 pmI know a SpaceX monopoly isn't ideal, but it's not meaningfully worse and possibly better than SpaceX + non performing company eating money. The answer to SpaceX monopoly is to give companies like Rocket Lab or Sierra contracts that will allow them to grow, not to throw good money after bad with Boeing.I think the problem was that in 2014, Boeing's reputation as the premier Aerospace engineering company had not yet been seriously tarnished. NASA (and probably lots of other folks) believed Boeing's written assertions that were part of the CCP contract, so NASA did not seriously question Boeing's progress reports and did not see that more oversight was needed. Unnecessary oversight costs money, and leads to all sorts of complaints about unneeded government interference. Necessary but unperformed oversight costs even more, but we only see this in retrospect.The way to avoid throwing good money after bad is to require that a company meet its contractual obligations. FFP is an ideal way to do this, but NASA needs to actually enforce their contracts. In the case of CCP, NASA should have cancelled the Starliner contract for nonperformance no later than about 2022.There is no reason to penalize "Old Space" and nurture "New Space". Just award contracts and enforce them.
[...] the Firm Fixed Price (FFP) contract milestones that NASA created were insufficient to find out the true progress of what Boeing was doing [which] is what NASA needs to figure out better.
Note that SpaceX BLEW UP a Dragon 2 (C204) in April 2020.
Quote from: Coastal Ron on 08/26/2024 04:58 pm[...] the Firm Fixed Price (FFP) contract milestones that NASA created were insufficient to find out the true progress of what Boeing was doing [which] is what NASA needs to figure out better.100% agreement here. What insight must NASA require, and when? And can NASA develop the ability to respond effectively when that insight implies an effort is off-track?When did (vs. should have) NASA become aware that the Boeing thermal model for the thruster doghouse was inadequate? In a set of perfect milestones, when would Boeing have missed one?
I do not know how much NASA has actually paid Boeing, which is an almost entirely different subject.
Quote from: DanClemmensen on 08/26/2024 04:54 pmI do not know how much NASA has actually paid Boeing, which is an almost entirely different subject.If I read this correctly, NASA has paid Boeing ~$2.24B of the up to ~$4.57B awarded.https://www.usaspending.gov/award/CONT_IDV_NNK14MA75C_8000
Quote from: sdsds on 08/26/2024 10:21 pmQuote from: Coastal Ron on 08/26/2024 04:58 pm[...] the Firm Fixed Price (FFP) contract milestones that NASA created were insufficient to find out the true progress of what Boeing was doing [which] is what NASA needs to figure out better.100% agreement here. What insight must NASA require, and when? And can NASA develop the ability to respond effectively when that insight implies an effort is off-track?When did (vs. should have) NASA become aware that the Boeing thermal model for the thruster doghouse was inadequate? In a set of perfect milestones, when would Boeing have missed one? I still don't understand why it wasn't caught during OFT-2.
Several of the reaction control system thrusters stopped working as Starliner approached the space station on the OFT-2 mission, and another one failed on the return leg of the mission. Engineers thought they fixed the problem by introducing what was essentially a software fix to adjust timing and tolerance settings on sensors in the propulsion system, supplied by Aerojet Rocketdyne.That didn't work. The problem lay elsewhere, as engineers discovered during testing this summer, when Starliner was already in orbit.
Quote from: AndrewM on 08/27/2024 02:07 amQuote from: DanClemmensen on 08/26/2024 04:54 pmI do not know how much NASA has actually paid Boeing, which is an almost entirely different subject.If I read this correctly, NASA has paid Boeing ~$2.24B of the up to ~$4.57B awarded.https://www.usaspending.gov/award/CONT_IDV_NNK14MA75C_8000I may be wrong, but I read this as they have paid $380,299,609.00 listed as outlayed. The obligated of $2,241,788,712.00 I would assume is owed when a milestone is reached. Does anyone know what milestone this is? (completion of the test flights?) The $4,556,076,044.00 is the potential total payments if all of the terms of the contract is met. That is my guess as to what this means.
Quote from: AndrewM on 08/27/2024 02:07 amIf I read this correctly, NASA has paid Boeing ~$2.24B of the up to ~$4.57B awarded.https://www.usaspending.gov/award/CONT_IDV_NNK14MA75C_8000I may be wrong, but I read this as they have paid $380,299,609.00 listed as outlayed. The obligated of $2,241,788,712.00 I would assume is owed when a milestone is reached. Does anyone know what milestone this is? (completion of the test flights?) The $4,556,076,044.00 is the potential total payments if all of the terms of the contract is met. That is my guess as to what this means.
If I read this correctly, NASA has paid Boeing ~$2.24B of the up to ~$4.57B awarded.https://www.usaspending.gov/award/CONT_IDV_NNK14MA75C_8000
Can someone translate this from federal contractese to English? I think I see $380 million actually paid, $ 2.2 Billion available to NASA to pay Boeing if milestones are met, and the rest of the $4.5 billion as a total of all payments to be made if Boeing completes the contract, including all six operational flights.
Quote from: JayWee on 08/27/2024 12:25 amQuote from: sdsds on 08/26/2024 10:21 pmQuote from: Coastal Ron on 08/26/2024 04:58 pm[...] the Firm Fixed Price (FFP) contract milestones that NASA created were insufficient to find out the true progress of what Boeing was doing [which] is what NASA needs to figure out better.100% agreement here. What insight must NASA require, and when? And can NASA develop the ability to respond effectively when that insight implies an effort is off-track?When did (vs. should have) NASA become aware that the Boeing thermal model for the thruster doghouse was inadequate? In a set of perfect milestones, when would Boeing have missed one? I still don't understand why it wasn't caught during OFT-2.Because OFT-2 didn't carry people onboard who, prior to docking, did some heavy-duty manual attitude control of Starliner.Butch's and Suni's effort stressed Starliner's RCS thrusters in quite a different way than the autonomous control system does. Certain RCS thrusters were fired for longer periods of time and more often under manual control, than the autonomous control system would have fired those thrusters. And that wasn't accounted for in the thermal model of Starliner's doghouses and thrusters.As a result, the manual steering led to overheated Teflon seals in certain thrusters, which led to the extruding problem now believed to be the prime cause of the thrusters going offline during rendez-vous with the ISS.SpaceX on the other hand, did verification testing on its Crew Dragon RCS thrusters based on the actual simulator results of manual Crew Dragon attitude control. They realised that manual steering stressed the thrusters in quite a different way, so they went and ground-fired their Draco's in the same manner. Guess what: it revealed an issue with valve seals and throat overheating. SpaceX then went to fix those issues, long before DM-2 ever left the ground. What are formally called Draco engines on Crew Dragon today, are in fact much evolved and improved RCS thrusters when compared to the Dracos originally mounted on Dragon 1.Continuous iteration and improvement offers many advantages over just buying a standard set of RCS thrusters from Aerojet. Something that Boeing has now found out the hard way.
My conspiracy bias leads me to assume that while there was a meeting — just as described in the media briefing — ending with unanimous consensus within NASA leadership, there were prior agreements made covertly among the power brokers. Just a theory: Boeing presented "We're prepared to conduct either crewed or uncrewed return" in exchange for a covert agreement that this offer would mean a successful uncrewed return puts them on a path to fly the next Starliner as a 4-crew rotation mission. That would be after the thruster over-heating issue is addressed to everyone's satisfaction of course.This also explains the emphasis at the media briefing on this being a NASA decision. No good faith interpretation of the contract would include the idea that NASA, at its whim, could refuse to put its astronauts on the return leg and thereby put Boeing in violation of its contract obligations. I recognize that's twisted thinking, but contract lawyers are famous for that.
Manual piloting on both test flights wasn’t executing a straightforward approach and docking, but qualifying the system to be piloted. Presumably that kind of flight profile is deliberately more complicated and stressful as a result/by design.
Quote from: abaddon on 08/27/2024 01:32 pmManual piloting on both test flights wasn’t executing a straightforward approach and docking, but qualifying the system to be piloted. Presumably that kind of flight profile is deliberately more complicated and stressful as a result/by design.If that is deliberate and by design in both vehicles, then it should not have come as a surprise and require(d) changes after simulating (for SpaceX) or live testing (for Boeing)?
SpaceX [...] did verification testing on its Crew Dragon RCS thrusters based on the actual simulator results of manual Crew Dragon attitude control.
SpaceX on the other hand, did verification testing on its Crew Dragon RCS thrusters based on the actual simulator results of manual Crew Dragon attitude control. They realised that manual steering stressed the thrusters in quite a different way, so they went and ground-fired their Draco's in the same manner. Guess what: it revealed an issue with valve seals and throat overheating. SpaceX then went to fix those issues, long before DM-2 ever left the ground. What are formally called Draco engines on Crew Dragon today, are in fact much evolved and improved RCS thrusters when compared to the Dracos originally mounted on Dragon 1.