The Science
Nitrous oxide (N2O) has been used for decades by those trying to receive extra from their engine with a relatively facile and cogent authority of this forceful compound. Two properties that build nitrous oxides such a typical Election for this are its faculty to both accession reaction and incision temperature during the combustion process when administered via the air intake process.
The Effect
The simple combination of more fuel with more oxygen within the cylinder's finite space means more powerful combustion, providing more horsepower to drive the vehicle. This is the same goal achieved by turbo or supercharger systems, which increase air volume by forcibly "cramming" more air into the fuel-air mixture. The added cooling benefit of N2O both further increases oxygen content and provides a countering effect to the tremendous heat created through the combustion process.Management of N2O prior to combustion is achieved via a development installed to inject, or "fog," the nitrous oxide into the airflow during the air-fuel mixing action prior to combustion. This is typically done somewhere in the air intake after the air cleaner and before the injectors or carburettor. Locating the fogger closer to the air-fuel compound mark minimizes diffusion and loss of chain reaction. Adequate N2O systems pair this injection of gas with an increase of fuel to burn with the cold, oxygen-enriched air.
Nitrogen (N2) provides the cooling corollary due to the endothermic reaction that takes settle as the nitrous oxide, which is stored under compel in liquid anatomy, straightaway vaporizes on injection into the airflow, dropping the surrounding temperature drastically. O2 (O) adds all the more bounteous of the critical combustion Component as the N2O breaks down into its components within the engine's cylinder during combustion. Administered properly, this combination can drastically access the combustion and thereby the horsepower output of an engine.
The Delivery
There are limiting factors to the benefits that can be achieved through the administration of nitrous oxide. First is the capacity of the N2O tanks on the vehicle. Second is the ability of the engine to resist the increase in power. When applied with proper fuel management and within an engine's ability to resist the added strain, N2O is a safe and effective way to accomplish significant horsepower gains.
