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1.⁠ ⁠Breakdown of Complex Hydrocarbons

Enzymes interact with hydrocarbon molecules in the fuel breaking down larger, more complex hydrocarbon molecules into smaller ones as well as breaking double and triple carbon bonds which are prone to incomplete combustion.
The smaller molecules are easier to combust fully, leading to a more complete energy release during the combustion process, minimizing unburnt fuel in the exhaust, therefore reducing energy wastage and emissions.

Better combustion efficiency contributes to improved thermal efficiency, as more of the fuel's energy is converted into useful work.

2.⁠ ⁠Enhanced Fuel Atomization

Fuel sprayed into the combustion chamber is broken into finer droplets, these mix more evenly with air, creating an optimal air-fuel mixture. This uniform mixture burns more consistently and thoroughly, ensuring that all the fuel contributes to power generation.
Reducing incomplete combustion, leads to less specific fuel consumption (SFC) and higher thermal efficiency.

3.⁠ ⁠Reduction in Engine Deposits

Thanks to cleaner combustion, formation of carbon deposits is prevented, in addition, xmile assists breaking down existing deposits over time, restoring optimal engine performance.

By avoiding and reducing carbon deposits on engine components like pistons, valves, and injectors; we prevent heat losses to the cooling system and allow flow of air and fuel, increasing fuel efficiency.

Also, cleaner engine components maintain high thermal efficiency and reduce the need for maintenance or frequent cleaning.

4.⁠ ⁠Lower Ignition Delay and Better Timing

Xmile-treated fuels will ignite more readily due to their improved molecular properties; leading to better timing of the combustion process and ensuring that the energy is released when the piston is in the optimal position to convert heat into work.


5.⁠ ⁠Improved Exhaust Gas Composition

By enabling complete combustion, we achieve lower exhaust temperatures, reducing energy lost through the exhaust, enhancing the overall thermal efficiency of the engine and reducing NOx emissions 

6.⁠ ⁠Indirect Thermal Efficiency Improvements

Thermal efficiency improvements are also achieved indirectly through:

Reduction in Friction Losses: Xmile treated fuels provide better lubrication, reducing friction in the combustion chamber and other engine components.

Stabilization of Combustion: More uniform and predictable combustion reduces mechanical stresses and energy losses.

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