R.C.Macaulay wrote:
Paul wrote,
Furthermore, my magnetic research precisely clarifies how magnetic
entropy is
converted to lattice entropy in magnetic materials by means of
electromagnetic
radiation. All that's left is inventing a clever design of efficiently
capturing
such energy. Computer simulations show that such a design is very
difficult and
requires a specific type of magnetic material. It appears Steorn has
found such
magnetic material and a mechanical design to capture such energy.
Howdy Paul,
Perhaps not the material but the "shape". or "mechanical design".
Hi Richard,
First one needs to find the appropriate material. Indeed I would agree that it's
possible to capture ambient energy with any magnetic material, but according to
computer simulations it is ***extremely*** difficult to overcome losses, even
with the best material I've been able to cook up in the software.
Most magnetic materials at room temperature consists of tightly bonded closed
magnetic loop domains. That equates to nearly zero magnetic entropy. The goal is
for each cycle to begin with high magnetic entropy and at some point within each
cycle eventually arrive at lower magnetic entropy. At such a point the device
must rely on ambient temperature to break the magnetic bonds, which results in
high magnetic entropy, and thus the cycle repeats. End result: ambient energy is
removed from the device, but the device will reach thermal equilibrium due to
thermal conductivity. Therefore, this results in energy flowing in a loop from
device to appliance to air and back to device.
Regards,
Paul Lowrance
