BIOTECHNOLOGIES AND ENZYME TECHNOLOGIES

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XBEE is a fuel system cleaner designed for all types of fuels, has been developed over many years and combines biotechnologies with enzyme technologies.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

• Enzymes

An enzyme is a protein naturally produced by all living cells. It comes in the form of a polypeptide chain with a fold in a specific place. This gives the enzyme its catalytic power – accelerating chemical reactions that are slow or not encouraged by decreasing the reaction activation energy, thereby increasing the reaction speed without affecting thermodynamics.
 

• Coenzymes

Many enzymes also need a non-protein element, that we call a coenzyme, for their catalytic activity.

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• Stability

The XBEE fuel system cleaner contain enzymes that are extremely stable and remain active for many years. However, there are physical factors that may destroy the enzymes, inhibit them, or lessen their activity when treating fuels. Enzymatic action may be interrupted by environment polarity, pH, or temperature changes and by UV light. Exposure to temperatures exceeding 80 to 90°C may destroy XBEE enzyme activity.

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• Protein Distinctiveness and Folding

A specific enzyme has its own three-dimensional structure as a result of the folding of its protein chain. This structure defines a more or less specific recognition site for the enzyme substrates (here the molecules that make up the transformed hydrocarbon) thus enabling contact between the substrate and the part of the enzyme responsible for catalytic activity (often including the coenzyme) to form an enzyme-substrate complex.

This complex enables the substrate’s chemical transformation followed by the liberation of reaction products and the enzyme. The latter may then enter into a new catalytic cycle and transform a new substrate molecule.

In the case of the XBEE natural fuel additive, composed of a cocktail of different enzymes, certain molecules that make up the fuel are recognized as substrates by certain enzymes and may therefore be modified. For example, these molecules may be polycyclic aromatic compounds or sulfurous compounds. During the combustion of a fuel modified by the XBEE fuel cleaner, the added enzymes are also burnt without any notable additional discharge since they are proteins (and therefore organic).

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The effect of XBEE fuel system cleaner on fuels

In standard combustion, the successive lighting of each series of fuel droplets require a certain amount of energy. This energy consumed during lighting is not used for thrust and may be transformed into residual radiant heat; contributing to the formation of nitrous oxides (NOx).
 

The action of XBEE fuel additive happens prior to combustion. The concerted action of various enzymes leads to a fuel with a higher combustion rate and better combustion. This retains more thermal energy for thrust. Moreover, faster flame propagation enables a larger portion of each fuel load to be burned, avoiding premature detonation and engine knocking. While exhaust valves reject a lesser quantity of burned fuel, flame extinction in the exhaust duct is reduced, preventing the formation of soot.
 

The XBEE fuel additive is a cocktail of naturally occurring botanical enzymes that can split certain fuel components, exchange chemical groups and rearrange the molecular structure of fuel molecules.
This results in a hyper-oxygenated fuel which, during its combustion, favors the formation of carbon dioxide (CO2) at the expense of carbon monoxide (CO). Moreover, the overall decreased fuel consumption due to more efficient combustion reduces emission signatures, in particular those of particulates and carbon dioxide.
 

When storing fuel, XBEE protects against oxidation, reducing gum formation. When engines are running, XBEE helps to safely eliminate water, reducing fuel tank corrosion and rust, which can clog filters, damage fuel separators and injectors, and accelerate fuel degradation. XBEE reduces fuel-derived organic debris and sludge, so there is less tank maintenance.

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XBEE impact over sulfur in fuel

During fuel production, the purpose of the hydro-treatment stage is to reduce the quantity of sulfur which, after combustion, causes sulfur oxides (SOx). Some studies suggest that large quantities of sulfur oxides in exhaust from incomplete combustion may be the source of cancer-causing compounds found in diesel engine soot.

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This treatment has a limited effect on polycyclic aromatic molecules which affect diesel fuel quality. After treatment with the XBEE fuel system cleaner, diesel fuel’s composition is modified with regards to sulfurous compounds. In particular, highly stable sulfites and sulfates appear, sometimes in the form of organic sulfates that may be found in emission particulates.

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The quantity of sulfur emitted remains the same; however the SO2 content is much more likely to be decreased. The decreased quantity of extremely toxic and cancer-causing aromatics, and tacky, invasive soot, has the visible effect of making emissions less dangerous. Replacing the highly reactive SO2 with a more stable compound attenuates the environmental impact.

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Moreover, with the decreased consumption due to the enzymes’ effect on the fuel, the time-weighted impact the sulfur may have on the environment is reduced in the same proportions. Lastly, other factors related to sulfur combustion may not always be known.

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