“Rocket Lab was not included in the initial study concepts selected by NASA in June 2024, but Rocket Lab’s proposal was later re-evaluated by NASA and selected for a study contract as it closely aligned with the solicitation’s stated focus on innovation,” Rocket Lab said in an Oct. 7 statement to SpaceNews.“All of the companies chosen submitted their proposals through the original ROSES solicitation and the addition of one more company will not delay the evaluation of the studies,” NASA said in a statement to SpaceNews Oct. 7 in response to inquiries about the Rocket Lab award Oct. 3 and 4. “NASA’s selection process allows for later additions at the selecting official’s discretion.”
Mars entry and landing vehicle is big unknown for RL. Likely to be <1000kg as earth departure mass is limited to 1500kg if designed for Neutron launch.One possibility is using HIAD for Mars entry. Its what NASA designed it for.
Quote from: TrevorMonty on 10/11/2024 01:37 amMars entry and landing vehicle is big unknown for RL. Likely to be <1000kg as earth departure mass is limited to 1500kg if designed for Neutron launch.One possibility is using HIAD for Mars entry. Its what NASA designed it for.If you want to start from a blank sheet of paper, there are all kinds of possibilities for lander architectures. The problem with all of them is that the MSR people have to make a decision on an architecture some time in the next 6 months. None of these architectures is anywhere close to being mature enough that they can actually reduce risk more than the risk the current architecture exposes the project to.So "big unknowns" simply aren't going to cut it. I think that the RL team is top-notch, but unless they've got something really revolutionary that nobody's thought of, this idea that they're going to sweep in, take over all the roles in the project, and save the day, is nuts.Just for reference, the SRL team from 3 years ago estimated the landed mass of the SRL, even for a dual-launch architecture, at more than 3t, an entry mass of more than 5t. That makes a landed payload of less than 1t sound pretty skimpy.I'm pretty sure that if there's a winning study, it's gonna produce a more compact MAV with a better payload fraction, and it's gonna do it by switching from solid motors to liquids. I could see RL coming up with something pretty interesting in that area. But a full-up SRL? I'm more than skeptical.
Quote from: TheRadicalModerate on 10/11/2024 04:16 amQuote from: TrevorMonty on 10/11/2024 01:37 amMars entry and landing vehicle is big unknown for RL. Likely to be <1000kg as earth departure mass is limited to 1500kg if designed for Neutron launch.One possibility is using HIAD for Mars entry. Its what NASA designed it for.If you want to start from a blank sheet of paper, there are all kinds of possibilities for lander architectures. The problem with all of them is that the MSR people have to make a decision on an architecture some time in the next 6 months. None of these architectures is anywhere close to being mature enough that they can actually reduce risk more than the risk the current architecture exposes the project to.So "big unknowns" simply aren't going to cut it. I think that the RL team is top-notch, but unless they've got something really revolutionary that nobody's thought of, this idea that they're going to sweep in, take over all the roles in the project, and save the day, is nuts.Just for reference, the SRL team from 3 years ago estimated the landed mass of the SRL, even for a dual-launch architecture, at more than 3t, an entry mass of more than 5t. That makes a landed payload of less than 1t sound pretty skimpy.I'm pretty sure that if there's a winning study, it's gonna produce a more compact MAV with a better payload fraction, and it's gonna do it by switching from solid motors to liquids. I could see RL coming up with something pretty interesting in that area. But a full-up SRL? I'm more than skeptical.Is NASA ultimately going to pick exactly one of the proposals from among those funded through these study contracts, or do they have the capability to mix and match? While Rocket Lab proposes an end-to-end solution, perhaps there's a secondary hope that even if they don't get the full contract, they could still win specific parts of the project.
Quote from: TrevorMonty on 10/11/2024 01:37 amMars entry and landing vehicle is big unknown for RL. Likely to be <1000kg as earth departure mass is limited to 1500kg if designed for Neutron launch.One possibility is using HIAD for Mars entry. Its what NASA designed it for.If you want to start from a blank sheet of paper, there are all kinds of possibilities for lander architectures. The problem with all of them is that the MSR people have to make a decision on an architecture some time in the next 6 months. None of these architectures is anywhere close to being mature enough that they can actually reduce risk more than the risk the current architecture exposes the project to.So "big unknowns" simply aren't going to cut it. I think that the RL team is top-notch, but unless they've got something really revolutionary that nobody's thought of, this idea that they're going to sweep in, take over all the roles in the project, and save the day, is nuts.Just for reference, the SRL team from 3 years ago estimated the landed mass of the SRL, even for a dual-launch architecture, at more than 3t, an entry mass of more than 5t. That makes a landed payload of less than 1t sound pretty skimpy.I'm pretty sure that if there's a winning study, it's gonna produce a more compact MAV with a better payload fraction, and it's gonna do it by switching from solid motors to liquids. I could see RL coming up with something pretty interesting in that area. But a full-up SRL? I'm more than skeptical.
Mars entry and landing vehicle is big unknown for RL. Likely to be <1000kg as earth departure mass is limited to 1500kg if designed for Neutron launch.One possibility is using HIAD for Mars entry. Its what NASA designed it for.
Is NASA ultimately going to pick exactly one of the proposals from among those funded through these study contracts, or do they have the capability to mix and match? While Rocket Lab proposes an end-to-end solution, perhaps there's a secondary hope that even if they don't get the full contract, they could still win specific parts of the project.
NASA may decide to not fund any and forget MSR. Asking industry for ideas was act of desperation as project was blowing budget and going to be cancelled.
Here are specfications on Capstone Photon Hypercurie 310ISP Photon dry mass is 55kg + 27kg Capstone + 210kg fuel (based on 300kg wet mass). No official thrust figures for Hypercurie but Steve calculated it at 450N. See RL payloads to moon and beyond thread from around post 20. (Pasting links is hit and miss on my ph). NB capstone bus had solar panels, star trackers, long range radios so lot more dry mass than on MAV. Assume 250kg wet would need 2-3engines plus pump batteries to reach orbit.
Quote from: TrevorMonty on 10/14/2024 09:57 amHere are specfications on Capstone Photon Hypercurie 310ISP Photon dry mass is 55kg + 27kg Capstone + 210kg fuel (based on 300kg wet mass). No official thrust figures for Hypercurie but Steve calculated it at 450N. See RL payloads to moon and beyond thread from around post 20. (Pasting links is hit and miss on my ph). NB capstone bus had solar panels, star trackers, long range radios so lot more dry mass than on MAV. Assume 250kg wet would need 2-3engines plus pump batteries to reach orbit.250kg gross liftoff mass for a MAV sounds pretty small. And even then, you'd need a T/W of 2 to 5. So that would be 5 to 11 HyperCuries. That's never gonna close.
450N =45kg x 3 =135kg. 250kg/3(mars gavity)= 83kg. 135/83 =1.6 T/WSamples weigh 11kg. 250kg would reach orbit (4.2km/s) with 63kg -11kg sample allows for 52kg vehicle dry mass. Battery hotswap would reduce that dry mass.
Quote from: TrevorMonty on 10/15/2024 08:10 am450N =45kg x 3 =135kg. 250kg/3(mars gavity)= 83kg. 135/83 =1.6 T/WSamples weigh 11kg. 250kg would reach orbit (4.2km/s) with 63kg -11kg sample allows for 52kg vehicle dry mass. Battery hotswap would reduce that dry mass.Eh?Thrust = 450NWeight = mass * marsG = 250kg * 3.72m/s^2 = 930NT/W = 450N / 930N = 0.48
Adding extra engines will reduce gravity losses but increase dry mass due extra engines and stronger tanks to handle higher Gs.More engines may not mean more battery mass. Battery mass is determined by KWh needed to power engines to orbit. More engines need more watts but for shorter period as it reaches orbit quickier.
A SuperHyperCurie could find its way into 3rd stage for Neutron. Would allow direct delivery of satellites to GEO.