dorsal/arxiv
View SchemaStructure and Combustion of Magnegases
| Authors | R. M. Santilli, A. K. Aringazin |
|---|---|
| Categories | |
| ArXiv ID | physics/0112066 |
| URL | https://arxiv.org/abs/physics/0112066 |
| Journal | Hadronic J. 27 (2004) 299-330 |
Abstract
In this paper, we study the structure and combustion of magnegases$^{TM}$ (Patented and International Patents Pending), new clean fuels developed by one of us (R.M.S.) [1], which are produced as byproducts of recycling nonradioactive liquid feedstock such as antifreeze waste, engine oil waste, town sewage, crude oil, etc., and generally vary with the liquid used for their production. A new technology, called PlasmaArcFlow\tm, flows the waste through a submerged electric arc between conventional electrodes. The arc decomposes the liquid molecules into their atomic constituents, and forms a plasma in the immediate vicinity of the electrodes at about 10,000$^o$ F. The technology then moves the plasma away from the electrodes, and controls its recombination into environmentally acceptable fuels. The new fuels possess a ew chemical structure first identified by one of us (R.M.S.), which is characterized by clusters of ordinary molecules and atoms under a new bond of electromagnetic nature. These clusters constitute a new chemical species different than the conventional molecules, since they are stable at ordinary conditions while exhibiting no infrared signature (other than those of conventional molecular constituents), thus confirming that the bond is not of valence type. For this reason the new chemical species is called ''Santilli's electromagnecules'' or ''magnecules''.
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"abstract": "In this paper, we study the structure and combustion of magnegases$^{TM}$\n(Patented and International Patents Pending), new clean fuels developed by one\nof us (R.M.S.) [1], which are produced as byproducts of recycling\nnonradioactive liquid feedstock such as antifreeze waste, engine oil waste,\ntown sewage, crude oil, etc., and generally vary with the liquid used for their\nproduction. A new technology, called PlasmaArcFlow\\tm, flows the waste through\na submerged electric arc between conventional electrodes. The arc decomposes\nthe liquid molecules into their atomic constituents, and forms a plasma in the\nimmediate vicinity of the electrodes at about 10,000$^o$ F. The technology then\nmoves the plasma away from the electrodes, and controls its recombination into\nenvironmentally acceptable fuels. The new fuels possess a ew chemical structure\nfirst identified by one of us (R.M.S.), which is characterized by clusters of\nordinary molecules and atoms under a new bond of electromagnetic nature. These\nclusters constitute a new chemical species different than the conventional\nmolecules, since they are stable at ordinary conditions while exhibiting no\ninfrared signature (other than those of conventional molecular constituents),\nthus confirming that the bond is not of valence type. For this reason the new\nchemical species is called \u0027\u0027Santilli\u0027s electromagnecules\u0027\u0027 or \u0027\u0027magnecules\u0027\u0027.",
"arxiv_id": "physics/0112066",
"authors": [
"R. M. Santilli",
"A. K. Aringazin"
],
"categories": [
"physics.gen-ph"
],
"journal_ref": "Hadronic J. 27 (2004) 299-330",
"title": "Structure and Combustion of Magnegases",
"url": "https://arxiv.org/abs/physics/0112066"
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