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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92 RUGGERO MARIA SANTILLI<br />
operated hadronic reactor <strong>with</strong>in ±5% error:<br />
871 BTU/cf + 308 BTU/cf<br />
416 BTU/cf<br />
= 2.83. (4.20)<br />
Note that, if one considers <strong>the</strong> electric energy used by <strong>the</strong> arc itself corresponding<br />
to 79.3 W/cf = 270 BTU/cf), we have <strong>the</strong> following commercial over-unity:<br />
871 BTU/cf + 285 BTU/cf<br />
270 BTU/cf<br />
= 4.36. (4.21)<br />
In releasing <strong>the</strong> above certification, Motorfuelers, Inc., noted that <strong>the</strong> arc had a<br />
poor efficiency, because it was manually operated, thus resulting in large variation<br />
of voltage, at times <strong>with</strong> complete disconnection of <strong>the</strong> process and need <strong>for</strong> its<br />
reactivation.<br />
Motorfuelers technicians also noted that <strong>the</strong> BTU content of magnegas,<br />
Eq. (4.17), is a minimum value, because measured in comparison to natural gas,<br />
not <strong>with</strong> a specially built burner, but <strong>with</strong> a commercially available burner that<br />
had large carbon residues, thus showing poor combustion, while <strong>the</strong> burner of<br />
natural gas was completely clean.<br />
Immediately after <strong>the</strong> above certification of commercial over-unity, a number of<br />
safety and health measurements were conducted on hadronic molecular reactors,<br />
including measurements on <strong>the</strong> possible emission of neutrons, hard photons, and<br />
o<strong>the</strong>r radiation.<br />
David A. Hernandez, Director of <strong>the</strong> Radiation Protection Associates, in Dade<br />
City, Florida conducted comprehensive measurements via a number of radiation<br />
detectors placed around <strong>the</strong> reactor, <strong>with</strong> particular reference to <strong>the</strong> only radiations<br />
that can possibly escape outside <strong>the</strong> heavy gauge metal walls, low or high<br />
energy neutrons and hard photons.<br />
Under <strong>the</strong> presence of eyewitnesses, none of <strong>the</strong> various counters placed in <strong>the</strong><br />
immediate vicinity of <strong>the</strong> reactor showed any measurement of any radiation at<br />
all. As a result, Radiation Protection Associates released an official Certificate<br />
stating that:<br />
“Santilli’s PlasmaArcFlow T M Reactors met and exceed <strong>the</strong> regulatory regulations set<br />
<strong>for</strong>th in Florida Administrative Code, Chapter 64-E. Accordingly, <strong>the</strong> reactors are declared<br />
free of radiation leakage.”<br />
Subsequent certifications of more recent hadronic reactors operating at atmospheric<br />
pressure <strong>with</strong> 50 kW and used to recycled antifreeze waste, this time done