This would also include some of the comparaisons that Interestedengineer has done showing the requirements for Nuclear to make it competitive with Chemical propulsion,
A list of problems off the top of my head after watching the video and reading the main paper:https://doi.org/10.1016/j.actaastro.2022.03.0201. How does the fuel storage work when you've got the moderator and the HALEU all together in a fuel storage mechanism? Won't it be shooting thermal neutrons around causing issues? By issues, I mean a runaway nuclear reactor kind of issues...2. How do you efficiently store a bunch of ice+HALEU+ iron pellets and feed them into the accelerator? By a bunch I mean on the order of 100t. At a few kg per pellet that's say 50,000 pellets.3. How do you protect the crew/cargo from the large bursts of neutrons coming from this drive?4. How does a fragile sapphire exhaust bell work with very large 100kN+ bursts vibrating the heck out of everything? There was no shock absorber in the system...
1-2. I think the best references for fuel storage will be found in the Orion project. They apparently worked with Coke vending machine fabricators on ways to handle multiple cans at a high rate with no risk of bloccage. Scott Lower's work on Orion might be helpful here.
"Bullets"? We are still talking about nuclear bombs, correct? Or was there some other component part of Orion (or some other "Orion" proposal entirely) that my mind is momentarily blanking on, one that uses bullets?We all know Orion includes a bomb ejection system, but "bullet" of course has a more specific meaning than just "any projectile."
Quote from: lamontagne on 05/05/2024 03:34 pm1-2. I think the best references for fuel storage will be found in the Orion project. They apparently worked with Coke vending machine fabricators on ways to handle multiple cans at a high rate with no risk of bloccage. Scott Lower's work on Orion might be helpful here.With this system the fuel "bullets" are concentric cylinders of uranium with a water moderator core. The system overall is vaguely like a partially reusable gun-type bomb. If the projectiles are all stored together, they could potentially act as a nuclear reactor and heat up, with consequences ranging from melting the ice cores to melting everything. Orion would use stable self-contained bomb units that wouldn't have any possibility of reacting with eachother, so they only needed to worry about the mechanics.
But what would you call something that's accelerated down a cylindrical support structure (let's call it a "barrel") at roughly M4.7?
Video presentation to the interstellar group
I've never seen any details of the Orion pulse modules but AFAIK the weaponeers who worked on it had a background in implosion based bombs, which would suggest an implosion design with efficient use of uranium. If Howe's design can replace a complex explosive implosion by a design keeping most of the U on board (in the barrel and muzzle), which is in effect reused on every pulse this could be the Holy Grail of in-system space flight. Relatively cheap, fast travel within the solar system using known physics (used in a creative way).
I'll try to post a preliminary spreadsheet today.