Message boards : Projects : A BOINC project proposal, analysis of Viktor Shaubergers repulsine A and B
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Send message Joined: 13 Mar 13 Posts: 1 |
Does anyone know if the Repulsine mod A and B has undergone Computational fluid dynamics simulations to determine the best dimensions for the platters, their spacing, the number of slots and their shape and the shape of the "waves" in the platters, and other dimensions ? Has it been studied for the generation of electrostatic fields ? I have seen pictures of these units, and the outer shell and almost all parts is made of copper. Some pictures and diagrams of the type A: http://jnaudin.free.fr/html/repulsin.htm Type B: http://jnaudin.free.fr/html/repulsb.htm These devices is interesting, and the alleged properties also. About these devices: This saucer was composed of a number of copper plates bolted together. Air was drawn in at the to and into the rapidly spinning saucer which was set into motion by an electric motor. In this machine no paddles pushed upon the air to start it. Instead, a motor was used to spin the whole saucer model to the desired number of revolutions per minute. The air was thus spun rapid over channels formed by the upper and lower surfaces of two copper plates. On these plates alternate ridges and depressions on both plates kept the air moving in snake-like wave forms and it moved toward the periphery of the saucer. Because the saucer was rapidly spinning, the air was folded over upon itself as it moved laterally into many individual vortices. The air was rotating in these vortices and moving up and down between the ridged plates. The air was cooled and made more dense as it progressed towards the periphery. At and around the saucer the periphery, it was ejected into the atmosphere at great speed. The vortex chamber becomes a kind of high-voltage electrostatic generator due to the air particles in high speed motion acting as an electrical charges transporter. In this machine, centripetal air flow changes to centrifugal air flow at this periphery. The air, once outside the saucer, spirals away in a centrifugal motion. It is at this periphery, at the midline of the saucer, where the change of motion takes place. Sometimes the Coanda Effect is cited as a reason this saucer flew. Coanda effects, if present at all, are only a secondary force if Viktor Schauberger's calculations are correct. Coanda effects alone could never be powerful enough to generate the lifting force equal to 228 tons which Schauberger estimated his small model produced. The history of the Schauberger flying disc models is as follows. According to Alexandersson, Aloys Kokaly, a German, began work for Viktor Schauberger in the early days of the Second World War producing certain parts for a "flying object" which were hard to obtain in Austria. The parts were to be delivered to the Kertl Works in Vienna which was the site of this work at the time. The Kertl Works were operating "on higher authority" in association with Schauberger. Kokaly was received at Kertl by its chief and told by this individual, somewhat bitterly, that one of these strange contraptions had already flown. The purpose of this device was twofold. First, it was to investigate free energy production. This could be done by running a shaft to the rapidly rotating wheel-like component which was auto-rotating at between 10,000 and 20,000 rpm. The wheel component had to be spooled up with a fast rotating electric engine first. Using reduction gearing, some of that energy could be mechanically coupled to an electric generator producing electricity at no cost. The second purpose of these experiments was to test Schauberger's theories on "levitation" and flight. Two prototypes were said to have been built at Kertl. The test flight was done without Schauberger's presence or even his permission to do the test. The model flew as described above but it did considerable destruction to the Kertl Works so there were mixed feels concerning the success of this flight. The force of levitation was so strong that it sheared six 1/4 inch diameter high-tensile steel anchor bolts on its way to the roof. One of these prototypes does exist today, in Germany. So, is this a viable project ? The problem is that i do not have any programming skills, and i do not have the required knowledge of mathematics. |
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