Now that's an interesting topic. This is in the realm of magnetohydrodynamics where magnetic and electric fields can be used to move water or have moving water produce an electric current. The MHD phenomenon is what the book/movie submarine Red October is based on. The story goes that the propulsion for Red October is magnetohydrodynamic and nearly 100% silent because it uses superconducting magnets and electric fields to move water through a series of tubes along the sides of the submarine. A nuclear reactor provides the necessary energy for the magnets and the electric field to induce large amounts of water to flow and propel the sub. A lot of work has been done on this very topic and application, but MHD refuses to scale up to the level of making this practical. It seems to be one of those phenomena that only works on smaller scales. I'm sure that one day we will see MHD propulsion on a larger scale, but a lot of work needs to be done before then. As for using MHD in HHO production, the presence of focused magnetic fields in the vicinity of the electrodes could help improve the efficiency of the bond breaking and electric interaction with the ions. This is somewhat similar to things that are being done with hot plasma fusion reactors, but the scale and energies involved may far outstrip the benefits of small scale production of HHO. But while this might be the case, it does make me wonder about another energy source that could influence the ionization improvements for water. Ionizing radiation in the vicinity of the electrodes may positively affect the process by adding more energy at the atomic scale to get the bonds to break more easily. Not sure if any work has been done in this area, especially considering water is a good moderator of ionizing radiation, but it does seem intriguing to me. I don't think I want to do any practical experiments with it simply because of the nature of the materials needed and the crazy state of clown world that would likely make this a crime. But yeah, there's a lot of interesting possibilities with HHO production. It reminds me a lot of the work done by amateur scientists on LENR (low energy nuclear reactions, sometimes called cold fusion). The LENR work has done some big things with electrode efficiencies and that could bleed over into HHO production improvements. I think some amateur scientist out there is on the cusp of a breakthrough in LENR/HHO and could very well change the world forever. I hope to see this in my lifetime because it will be more like the science of yesteryear where independent work made the breakthroughs rather than state funded (((science))). I'd like to see that resurgence in independent practical experimentation take over once again while pushing the simulation-driven science to the background. That would be awesome.