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NEWSCIENCENEWSCIENCENEWSCIENCE Turtur is getting somewhere. Part 5 provides not so much an "Ahah!" as a brainstorm moment. Here it's realised that the initial concept suggesting that the oscillation would be expressed in a capacitor could be revised to have the oscillation occur in the device's coil. The luxury of a theory with mathematics has rewards— something that the cold fusion crowd is still seeking. The brainstorm solves the matter of getting a capacitor to have moving plates that can be tuned. Instead, a commercial capacitor might well work. The other advantage is that the energy density would be within the magnetic side of the device, so Several engineering types would have the skill set to build a device, and it would be no surprise if some inquisitive engineers showed up with working devices in the coming months. Turtur's paper proposes a way for Turtur is getting somewhere. Several engineering types would have heoretical construction of a zero- Part 5 provides not so much an _ the skill set to build a device, and it point-energy converter in the kilowatt "Ahah!" as a brainstorm moment. would be no surprise if some range (see http://tinyurl.com/4zhcaql). Here it's realised that the initial inquisitive engineers showed up with The result is a model of aZPE motor concept suggesting that the working devices in the coming with a diameter of 9.0 centimetres and oscillation would be expressed in a months. a height of 6.8 cm, producing 1.07 capacitor could be revised to have the _‘Turtur points out that the device has ilowatts—able to power more than oscillation occur in the device's coil. limitations based in the materials. 0 100-watt bulbs. The luxury of a theory with Magnet rotational speeds are within The paper is arranged into mathematics has rewards— common material specification numbered parts. Part | discusses how something that the cold fusion crowd ranges. The wire within the coil is e project is defined, i.e., the theory _ is still seeking. The brainstorm solves going to be an issue, limiting the is provided that's awaiting the matter of getting a capacitor to potential amperage. But that does experimentation. At this writing, no have moving plates that can be tuned. not mean that the device cannot be working unit has been built, but the Instead, a commercial capacitor might scaled up. mathematics and theory show that well work. The other advantage is that the materials needed would be the the energy density would be within 21st-Century Energy Breakthough limitations. he magnetic side of the device, so Where does that leave us? For this Parts 2 to 5 explore the chain writer, the ZPE concept for now of thoughts that took Turtur to has a theory that can be grasped the device proposal. It's ! with working mathematics important to follow these along, Turtur's paper Proposes a explaining what's going on. as the discussion shows the way for theoretical Turtur deserves congratulations: the breakthrough of seeing, understanding and devising a steps of theory development. Over the course of the construction of a discussion, three questions zero-point-energy converter of the energy available arise. . in quantum oscillation might be Now for the layperson, keep in converter In the the opening point of an energy- mind that the quantum kilowatt range. filled 21st century for humanity. oscillations are very, very small But is the theory right and can and happen over time. That the device be made to work? makes the management of Almost everything an engineer iming or tuning the device key to its harvesting is at that level instead of at would need has been provided by operation. If one's device can't tune the electrostatic level. The device Turtur. The intellectual property is o the time segments of oscillation, then has the tuning motion coming open source now. The test is in the e energy pick-up isn't going to. from an electromagnet within an _ intelligence and application of skill for appen. That means Turtur had to electromagnet, much like an_ building a device, followed by a stabilise the device inputs with pulsed _ electrosolenoid in simple terms. determined persistence for signals. Oscillations are wavelike in The difficulty is in the tuning. The debugging. at there is an "up" or "down", so to. problem in a nutshell: oscillation of | One or two of these devices would speak, to tune for. Turtur's an electromagnet within an_ provide a very energy-dense portable breakthrough is in understanding that electromagnet. The solution: rotate a power unit. The market is huge, the e tuning has to adjust to the two permanent magnet instead. production cost looks to be very low, resonances between the two motions Part 6 explains the use of the and the operating management of the oscillation. Now for the first rotating permanent magnet in seems adaptable to IC chips. This is "Ahah!" moment: the differential of considerable detail. One key is that quite something, if it works. Let's e two resonances is the energy Turtur has worked out an algorithm to hope it does. °o value that can be harvested. find the tuning points for a working (Source: Brian Westenhaus, Then, as seen in part 4, Turtur was conversion device. Once one has a NewEnergyAndFuel.com, 17 February 20, ready to try another design with a grounding in the theory, puts the http://tinyurl.com/4fyfayu. Note: Professor ransformer-style coil pair for shunting algorithm to work and builds the Claus W. Turtur's article "A Connection out some power. The next "Ahah!" conversion device, it should work. between Gravitation and Other Interactions" moment yielded 63 milliwatts. Now This is surely just the beginning. was published in NEXUS 11/02.) Turtur points out that the device has limitations based in the materials. Magnet rotational speeds are within common material specification ranges. The wire within the coil is going to be an issue, limiting the potential amperage. But that does not mean that the device cannot be scaled up. Turtur's paper proposes a way for theoretical zero-point-energy converter in the harvesting is at that level instead of at the electrostatic level. The device then has the tuning motion coming from an electromagnet within an electromagnet, much like an electrosolenoid in simple terms. The difficulty is in the tuning. The problem in a nutshell: oscillation of an electromagnet within an electromagnet. The solution: rotate a permanent magnet instead. Part 6 explains the use of the an an rotating permanent magnet in considerable detail. One key is that Turtur has worked out an algorithm to find the tuning points for a working conversion device. Once one has a grounding in the theory, puts the algorithm to work and builds the conversion device, it should work. This is surely just the beginning. Brian Westenhaus, between Gravitation and Other Interactions" was published in NEXUS 11/o2.) 52 * NEXUS APRIL - MAY 2011 construction of a kilowatt range. www.nexusmagazine.com