Polyetheramine Fuel Additive Consisting of Ethanol

The polyetheramine fuel additive can be used in combination with other types of additives for a more effective production of ethanol from crude oil. The polyetheramine fuel additive improves the physical properties of the resultant fuel and improves the advantages to both the user and to the environment of using varying degrees of alcohol as a fuel in internal combustion engines. By combining the polyetheramine fuel additive with a silicone additive, the result is a product that burns more completely than any other alternative, as well as providing a much cleaner burning fuel for all but the most expensive models of internal combustion engine vehicles. These additives can also provide the user with a much lower emissions rating for the engine than any other alternative.

Polyethylene is polyetheramine. It is also known by various other names, including polyethylene glycol, polyethylene propylene, polyethylene chlorate and polyethylene triacetate, among others. It is a synthetic polymer compound consisting of three carbon atoms surrounded by six hydrogen atoms in a two-sided, or polyethylene terephthalate, configuration. This material has been found to be highly useful for numerous manufacturing applications, including plastics, polymers and dyes. Polyethylene is primarily utilized as a fuel additive to reduce petroleum consumption and to improve gas mileage and performance.

86 In certain applications, polyetheramine fuel additive can be applied as an e 85 fuel mixture, which is essentially an engineered mixture that produces ethanol gas from petroleum. In this application, the polyethylene concentration comprises at least one molecule of polyethylene, and in some cases more than one molecule of polyethylene. In one embodiment, the polyethylene fuel mixture comprises an amount of polyethylene not greater than or less than one percent, inclusive of one hydrogen atom. In another embodiment, the polyethylene fuel mixture comprises an amount of polyethylene not greater than or less than five percent, inclusive of one hydrogen atom. In still another embodiment, the polyethylene fuel mixture comprises an amount of polyethylene not greater than or less than ten percent, inclusive of one hydrogen atom. Other polyethylene ingredients may be used in the e 85 fuel mixture to achieve the concentrations noted above.

It is generally recognized that there are numerous polyetheramine fuel additive formulations available in the market today. However, the present disclosure is directed to a particular combination of polyethylene gas and a formulation of resins having at least one lithium ion. Although lithium is commonly recognized as an energy commodity, the invention is directed to using this energy commodity as a corrosion inhibitor.

The polyethylene fuel additive comprising ethanol as the main ingredient tends to resist hydrolysis at the level of molecular level. This results in the evolution of stable and thick foam, which when sprayed on the surface of metal alloys it leads to quick corrosion of the alloy coatings, thereby peeling off the metal. This leads to an increase in the level of alloy oxide, which imparts improved wear resistance to the metal. Further, the presence of oxygen in the oxidation chamber helps to scavenge the other metals for faster wear down.