H2O "MASER" condenser

Last crawled date: 3 years, 3 months ago

Please, download text file to know more.

The step file is just a first draft (another technological vision is already in sight but still fully conceptualized).

09/12/2020

A more advanced concept uploaded (pdf+step+2xjpg)

10/12/2020

More information about coating: http://www.astrosurf.com/luxorion/miroir-revetements-coatings2.htm (french).

Illumination of the TiO2 / SiO2 coating with UVA light is not necessary. https://my.editions-ue.com/catalogue/details/gb/978-613-1-57582-2/rev%25C3%25AAtements-sol-gel-tio2-sio2-naturellement-super-hydrophiles

The water bridge is created with 2 electrodes HT (+/-). Like this, no material transfert is observed.

22/12/2020

3 downloaded files (step pdf jpg Kelvin condenser)
The device is renamed "Kelvin condenser" in accordance with the new theoretical concept (hydroxide & oxonium play a major role compared to the dipolar character of H2O) and in homage to the Kelvin generator.
Old files are not deleted to show the evolution of the concept.
The glass unit remains unchanged but other components are added. Porous ceramic receives a new design.

07/01/2021

During the holidays I built a Kelvin generator. According to my tests, it takes a fairly large amount of water between each discharge to return a voltage of +/- 5000V. Self-powering the system therefore seems improbable to me.
At the same time, I deposited water drops on the discharge spheres and I have the impression that they did not behave the same from one sphere / charge to another. The conditions of the experiment were however not very rigorous (shpère not cleaned).
I nevertheless noticed that when I deposited a drop between the spheres, in contact with a single sphere, that the charge took longer. I did not see an electric arc at first. The drop was maintained on the other hand a little above the vertical part of the sphere and from time to time emitted cracklings. As time went on, the drop narrowed and began to take on a rounder shape, as if the surface became hydrophobic. After a while, an arc appeared between the spheres but followed a strange path: not at the closest point between the spheres, but between the drop placed on one sphere and a more distant area on the other sphere. . I have the impression that the prolonged stay on the electrified sphere (in the gradian of fields) has modified the chemistry of the drop of water, making it more favorable to the passage of the electric arc.
If this is the case, there is therefore an electrolysis and the nature of the composition of the gas to be dried would be modified. Another risk would be the appearance of ions in the gas which could lead to a malfunction of the electrolyser (water recycling) or of the fuel cell.
However, in the model that I propose, the arrangement of the layers does not favor the passage of an arc but tries to present only a gradient of fields.
For information, a system similar to what I modeled was designed in the 1950s when the MASER was invented. http://culturesciencesphysique.ens-lyon.fr/ressource/histoire-laser-Cagnac.xml
I also think that the first one-sphere system is the most likely to work. For the capillary structure, I think that alumina microbeads (45 to 75µ) would do the trick if they are "washed" beforehand.
https://www.mineralex.be/corindon-blanc.html
A high voltage coil like on a spark ignition engine with regular discharge (0.2Hz) would be enough in my opinion to maintain an efficient field gradient.