Post by N on Jan 7, 2013 4:08:41 GMT -5
BSMH-Yildiz' All-Magnet-Motor 30-Day University Test Pending
This month, a leading European university will be conducting a thorough, academically-rigorous, peer-reviewed, independent, scientific test of Turkish Inventor, Muammer Yildiz' all-magnet motor in an isolated room at the university. Not only will this provide the validation Yildiz needs to get funding for a patent, but it will open a new scientific revolution.
by Sterling D. Allan
Pure Energy Systems News
Back on April 21, 2010, we reported that Turkish inventor, Muammer Yildiz demonstrated his magnet motor that he alleged runs on the power of magnets alone at Delft University in the Netherlands. The motor was shown turning a fan at a high speed, and no wires could be seen going to the device; then the device was disassembled in front of the group.
Since that time, much has happened, but two key hurdle have lingered: intellectual property (IP) protection and adequate validation.
Yildiz' all-magnet motor has essentially four components. A rotor and stator, as would be expected, then two other components that are unique to his system among anyone worldwide that he knows of who has been pursuing all-magnet motors. For now, we will call these his "black box." It is those two components that allow for the high torque he is able to achieve.
He needs to get international patent protection (at least filed) for the black box before opening the technology to any team that wishes to be involved. But such protection costs a lot of money (in the ballpark of 2-8 million Euros). But in order to get that kind of money, he needs solid third-party verification of the technology.
Now that may be accomplished.
An arrangement has been made with one of the leading universities in Europe, which can't be named yet. They will be conducting an academically rigorous test for thirty days of the "black box", protected under lock and key, with only the shaft protruding to power a load. The test will last 30 days -- many times longer than would be required to rule out any other energy source hidden within the black box. That device will be able to be governed up and down in its power output, and will be rigorously measured for the duration of the test, which will follow TUV standards. (A 24-hour test would most likely be all that is necessary to prove that the motor works, and that no trickery is involved.)
That test could begin as early as mid January, 2013.
The university is presently preparing a room that will be insulated from all external electromagnetic fields, to also rule out any kind of remote, wireless power source.
One concern I have about that portion of the regimen is that in my understanding of how all-magnet motors work, they are harvesting magnetic forces from the environment, whether Earth's magnetic field, or some other principle of magnetism that we don't fully understand yet. If the university shields the motor from those forces, then it is not likely to work. That would be like trying to test a wind turbine in a room sealed off from all air movement. It defeats the purpose and intent of the technology.
Yes, they should do something to rule out some kind of externally transmitted power (which would be a huge scientific achievement in and of itself); but this can be done quite easily by measuring for electromagnetic radiation.
So yes, as part of the testing to understand where the energy might be coming from, a magnetically shielded room would be a good idea. But this should not be a pre-requisite requirement to validate the technology. The university setting, with the contents of surrounding rooms known and controlled, as well as measuring the ambient electromagnetic field in the room, should be adequate to rule out any kind of man-made, remote power source.
The University will be inviting specialists from around the world in the field of Physics and magnetic phenomenon to participate in the test. Such invitations will be issued by the University, though Yildiz will be making some recommendations based on his interaction with the scientific community he has encountered in the course of his journey.
Yildiz will be able to be present for the tests for observation and advice, but the testing will be controlled by the University.
Once that test is complete, then the University will be issuing a public statement in English via the University's television station, announcing the results of the test. And they will publish the methods, results, and conclusions on their website for interested parties to be able to corroborate the results.
With that test complete, Yildiz with then have the validation required to be able to get the funding to file for the international patent protection.
Once that filing is done, Yildiz will be able to enter into an agreement with business, engineering, manufacturing, and distribution interests; for he will be able to disclose the motor. He already has such a group interested in interfacing with him in this manner. What they lack is the validation, which will be more than adequately covered by the pending University test.
Not only will this provide the validation Yildiz needs to get funding for a patent, but it will open a new scientific revolution pursuing magnets as a prime mover to power the future.
As far back as November, 2012, Yildiz had announced on their website that they would be holding a 72-hour public demonstration of the technology from January 24-27. However, the academics were not satisfied with that situation and prevailed on him to proceed in the manner described above, to which he has now agreed. Some of the scientists who had planned on attending that demonstration may be among those that the University will invite to participate in the 30-day test.
In other news, the following is a list of answers to questions I submitted back on December 11 to Halil Turkmen, a volunteer working directly with Yildiz.
Read Q&A here: pesn.com/2013/01/04/9602242_BSMH-Yildiz_All-Magnet-Motor_30-Day_University_Test_Pending/
This month, a leading European university will be conducting a thorough, academically-rigorous, peer-reviewed, independent, scientific test of Turkish Inventor, Muammer Yildiz' all-magnet motor in an isolated room at the university. Not only will this provide the validation Yildiz needs to get funding for a patent, but it will open a new scientific revolution.
by Sterling D. Allan
Pure Energy Systems News
Back on April 21, 2010, we reported that Turkish inventor, Muammer Yildiz demonstrated his magnet motor that he alleged runs on the power of magnets alone at Delft University in the Netherlands. The motor was shown turning a fan at a high speed, and no wires could be seen going to the device; then the device was disassembled in front of the group.
Since that time, much has happened, but two key hurdle have lingered: intellectual property (IP) protection and adequate validation.
Yildiz' all-magnet motor has essentially four components. A rotor and stator, as would be expected, then two other components that are unique to his system among anyone worldwide that he knows of who has been pursuing all-magnet motors. For now, we will call these his "black box." It is those two components that allow for the high torque he is able to achieve.
He needs to get international patent protection (at least filed) for the black box before opening the technology to any team that wishes to be involved. But such protection costs a lot of money (in the ballpark of 2-8 million Euros). But in order to get that kind of money, he needs solid third-party verification of the technology.
Now that may be accomplished.
An arrangement has been made with one of the leading universities in Europe, which can't be named yet. They will be conducting an academically rigorous test for thirty days of the "black box", protected under lock and key, with only the shaft protruding to power a load. The test will last 30 days -- many times longer than would be required to rule out any other energy source hidden within the black box. That device will be able to be governed up and down in its power output, and will be rigorously measured for the duration of the test, which will follow TUV standards. (A 24-hour test would most likely be all that is necessary to prove that the motor works, and that no trickery is involved.)
That test could begin as early as mid January, 2013.
The university is presently preparing a room that will be insulated from all external electromagnetic fields, to also rule out any kind of remote, wireless power source.
One concern I have about that portion of the regimen is that in my understanding of how all-magnet motors work, they are harvesting magnetic forces from the environment, whether Earth's magnetic field, or some other principle of magnetism that we don't fully understand yet. If the university shields the motor from those forces, then it is not likely to work. That would be like trying to test a wind turbine in a room sealed off from all air movement. It defeats the purpose and intent of the technology.
Yes, they should do something to rule out some kind of externally transmitted power (which would be a huge scientific achievement in and of itself); but this can be done quite easily by measuring for electromagnetic radiation.
So yes, as part of the testing to understand where the energy might be coming from, a magnetically shielded room would be a good idea. But this should not be a pre-requisite requirement to validate the technology. The university setting, with the contents of surrounding rooms known and controlled, as well as measuring the ambient electromagnetic field in the room, should be adequate to rule out any kind of man-made, remote power source.
The University will be inviting specialists from around the world in the field of Physics and magnetic phenomenon to participate in the test. Such invitations will be issued by the University, though Yildiz will be making some recommendations based on his interaction with the scientific community he has encountered in the course of his journey.
Yildiz will be able to be present for the tests for observation and advice, but the testing will be controlled by the University.
Once that test is complete, then the University will be issuing a public statement in English via the University's television station, announcing the results of the test. And they will publish the methods, results, and conclusions on their website for interested parties to be able to corroborate the results.
With that test complete, Yildiz with then have the validation required to be able to get the funding to file for the international patent protection.
Once that filing is done, Yildiz will be able to enter into an agreement with business, engineering, manufacturing, and distribution interests; for he will be able to disclose the motor. He already has such a group interested in interfacing with him in this manner. What they lack is the validation, which will be more than adequately covered by the pending University test.
Not only will this provide the validation Yildiz needs to get funding for a patent, but it will open a new scientific revolution pursuing magnets as a prime mover to power the future.
As far back as November, 2012, Yildiz had announced on their website that they would be holding a 72-hour public demonstration of the technology from January 24-27. However, the academics were not satisfied with that situation and prevailed on him to proceed in the manner described above, to which he has now agreed. Some of the scientists who had planned on attending that demonstration may be among those that the University will invite to participate in the 30-day test.
In other news, the following is a list of answers to questions I submitted back on December 11 to Halil Turkmen, a volunteer working directly with Yildiz.
Read Q&A here: pesn.com/2013/01/04/9602242_BSMH-Yildiz_All-Magnet-Motor_30-Day_University_Test_Pending/