The internal combustion process within an engine works under the principle of putting an amount of high-energy fuel in a small and enclosed space and igniting it to produce energy. This energy is then translated into motion that propels the engine of a vehicle. The benefit of a combustion fuel catalyst will be discussed below.
Several factors are involved in an engine’s internal combustion process. Let’s explore these factors.
Majority of fuels are comprised of hydrocarbons or compounds that contain carbon and hydrogen atoms. In a perfect setting, oxygen is supposed to convert all the hydrogen to water while the carbon is transformed to carbon dioxide.
Unfortunately, achieving a perfect combustion process is near impossible in reality. Fuels burn when they react with the amount of oxygen in the air. With insufficient air, the combustion doesn’t push through normally and ends up as an incomplete or partial combustion. Instead of just carbon dioxide, water, and nitrogen, an impartial combustion process produces harmful byproducts like partially burned hydrocarbons (VOCs) and Nitrogen oxides. A loss in fuel economy also occurs because not all of the fuel is properly processed to produce energy.
Preventing Incomplete Combustion with a Fuel Combustion Catalyst
Despite the near impossible circumstances for complete combustion, the combustion process within an engine can be improved by the application of a fuel combustion catalyst. Catalytic combustion is the term used to refer to the chemical process which uses a catalyst to speed up the oxidation reactions of fuel. With the help of this, the production of byproducts is reduced and better fuel economy is achieved.
Fuel combustion catalysts work by lowering the activation energy or the initial energy required to initiate chemical reaction. For the case of fuel, the activation energy comes in the form of oxygen.
Other ways in which a fuel combustion catalyst can be applied to control combustion reactions is through fuel preparation–which is applied by splitting long molecules into shorter ones–and through fuel oxidation to release heat energy. The third option is using catalysts to destroy pollutant gases in the exhaust.
A combustion fuel catalyst is a type of technology developed to improve internal combustion within the engine. These products can work in many ways by targeting the core problems behind partial combustion. Combustion fuel catalyst products can help lower the oxygen requirements of the fuel to finally undergo chemical reaction. With lower air requirements, a more proper chemical combustion happens and more energy is produced. Moreover, a combustion fuel catalyst can also help in the better burning of gas and un-burned fuel due to low temperatures.
A combustion fuel catalyst also helps in the overall performance of the vehicle itself. Due to the increased combustion provided, the overall efficiency of the engine also improves and fouling and corrosion is reduced. These advantages then help improve heat transfer, reduce maintenance costs and equipment life interruptions and increase overall equipment life.
This technology also contributes a lot to the environment by reducing the amount of emissions released in the air. Noxious emissions are the result of partial combustion and combustion fuel catalysts help promote the combustion of carbon particles and condensed tar. With the reduction of soot and emissions comes not only better air quality and cleaner running equipment but also increased fuel economy.
To summarize, a combustion fuel catalyst helps by lowering air excess, providing combustion at low temperature, and lowering NOx emissions. One particularly good example of a combustion fuel catalyst is CleanBoost® Maxx™ which you can check out here.