Too bad that we can't develop an internal combustion engine that could pressurize a Tritium-Deuterium mix to the point of spontaneous fusion combustion.
Quote from: JasonAW3 on 06/19/2017 07:22 pmToo bad that we can't develop an internal combustion engine that could pressurize a Tritium-Deuterium mix to the point of spontaneous fusion combustion.Wait, wasn't focus fusion or a similar fusion startup doing a spherical piston compression setup (effectively cylinderless?)Current research into rotary ramjets is probably strongest with RamGen, which who got sucked into Dresser-Rand for their CO2 compressor using a ram inlet only.Continuing my bad idea, it primarily is shaft power in output (which means collocating a generator in a neutron rich environment which is difficult at best, nevermind what the shaft cracking will look like under neutron embrittlement), but since it uses a supersonic expander nozzle it has a high speed exit flow. If desired reactor output is electricity, I wonder if some kind of MHD setup is possible? The gas mixture for example might be fissile gas and H2 moderator, but MHD usable conditions may not exist downstream of the expander due to cooling (necessitating seeding?).
The GERA paper is interesting because they propose a Wankel rotary with external "spark" neutron source, which could easily be a packet switched particle accelerator having particle bunches routed to different spallation targets on demand. That, and switching to a LiquidPiston style inverse wankel layout may be advantageous...
Why not use the expander to do double duty as part of the MHD generator system? The placement is good, so, unless there is some technical reason that I don't know about, it should be doable.
I don't know enough to judge most of this proposal, but I have a minor nit to pick: calling a particle accelerator "packet switched" is an abuse of the term. The whole point of using the term "packet switched" is that it means that each packet contains within it address information and the switching is done based on looking into each packet and routing based on the address information in the packet. For the term "packet switched" to make sense here, the particles themselves would have to carry address information which would be used to determine which target they were routed to. Clearly, that would be a terrible idea, and it's clearly not what was meant here.If you have the choice of where to route things coming from a sideband channel rather than from the things being routed themselves, it's not packet switched.
Quote from: ChrisWilson68 on 06/20/2017 01:51 amI don't know enough to judge most of this proposal, but I have a minor nit to pick: calling a particle accelerator "packet switched" is an abuse of the term. The whole point of using the term "packet switched" is that it means that each packet contains within it address information and the switching is done based on looking into each packet and routing based on the address information in the packet. For the term "packet switched" to make sense here, the particles themselves would have to carry address information which would be used to determine which target they were routed to. Clearly, that would be a terrible idea, and it's clearly not what was meant here.If you have the choice of where to route things coming from a sideband channel rather than from the things being routed themselves, it's not packet switched.Fully guilty of this as protons in a particle accelerator are not self describing. As an analogy though, the movement of discrete groups of particles in a particle accelerator (this grouping appears to be called bunches) which are path switched by particle accelerator switching gear may be better understood as a network by some people. Though calling it a distributor cap analogue may have been more precise, in the context of hitting separate neutron spallation targets for each cylinder/rotor in a piston setup in an appropriate order relative to piston timing.
A quibble about the reaction rate: the rate of change in reaction rate is a function of criticality. Fissile gas being compressed will start fissioning with an accelerating rate as it is compressed past criticality, and reach a peak when it passes criticality going the other direction. So the peak reaction rate would not be at the compression shock but shortly downstream.