the new fuels with magnecular structure - Institute for Basic Research
the new fuels with magnecular structure - Institute for Basic Research
the new fuels with magnecular structure - Institute for Basic Research
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112 RUGGERO MARIA SANTILLI<br />
Figure 36. A view of <strong>the</strong> main results on <strong>the</strong> measurement of specific weight on a specific <strong>for</strong>m<br />
of MH produced from magnegas released by Adsorptions <strong>Research</strong> Laboratory, in Ohio, under<br />
signature by its laboratory director. It should be stressed that <strong>the</strong> high value of specific weight<br />
was due to a specific treatment not expected to be possible on a industrial basis. There<strong>for</strong>e, <strong>the</strong><br />
specific weight of MH industrially production from magnegas is expected to have about three<br />
times <strong>the</strong> specific weight of H 2, thus sufficient to render MH equivalent to natural gas as far as<br />
energy content is concerned (because natural gas contains about 1, 000 BTU/scf, H 2 contains<br />
about 300 BTU/scf, consequently MH = 3H 2 would contain BTU/scf close to those of natural<br />
gas)<br />
Specific equipment and designs <strong>for</strong> <strong>the</strong> industrial production of MH, MO, and<br />
o<strong>the</strong>r magnetically polarized gases are available on request.<br />
5.4 Experimental Evidence on MagneHydrogen T M and<br />
MagneOxygen T M<br />
It is now important to review <strong>the</strong> experimental evidence supporting <strong>the</strong> existence<br />
of MH and MO.<br />
The first tests were conducted <strong>with</strong> MH produced from MagneGas as indicated<br />
in <strong>the</strong> preceding subsection. MagneGas was first produced by using antifreeze<br />
waste as liquid feedstock. The combustible gas was <strong>the</strong>n passed through 5 Armstrong<br />
zeolite filters, which essentially consist of a microporous molecular sieve<br />
selecting a gas via <strong>the</strong> so-called “molecular sieving,” or molecular size exclusion.<br />
The filtered gas was <strong>the</strong>n subjected to <strong>the</strong> following three measurements:<br />
1) This type of MH was first subjected to analytic measurements by a laboratory<br />
via Gas Chromatography (CG) and independent tests <strong>for</strong> confirmation were<br />
conducted via Fourier Trans<strong>for</strong>m Infrared Spectroscopy (FTIS). All measurements<br />
were normalized, air contamination was removed, and <strong>the</strong> lower detection<br />
limit was identified as being 0.01%. The results are reported in Fig. 35. As<br />
one can see, <strong>the</strong>se measurements indicate that this particular type of MagneH is