## Dfem-Simulation of a Zero-Point-Energy Converter with Realisable Dimensions and a Power-Output in the Kilowatt-Range.

**Authors:** Claus Wilhelm Turtur

In precedent work, the author presented a method for the theoretical computation of zero-point-energy
converters, called Dynamic Finite-Element-Method (DFEM). In several articles some examples for the
conversion of zero-point-energy have been demonstrated, which deliver an output power in the
Nanowatt- or in the Microwatt- range, which is a fundamental proof of the principle, but not sufficient
for any technical application.
The way towards a powerful zero-point-energy converter in the Kilowatt-range needed some
additional investigation, of which the results are now presented. Different from former fundamental
basic research, the new converter has to be operated magnetically, because the energy-density of
magnetic fields is much larger the energy-density of electrostatic fields, namely by several orders of
magnitude.
In the article here, the author presents step by step the solution of the theoretical problems, which now
allows the theoretical construction of a zero-point-energy converter in the Kilowatt-range. The result is
a model of a zero-point-energy motor with a diameter of 9 cm and a height of 6.8 cm producing 1.07
Kilowatts.

**Comments:** 25 pages

**Download:** **PDF**

### Submission history

[v1] 9 Sep 2011

**Unique-IP document downloads:** 75 times

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