“F2-21 eeFuel” additive does not transform physical-and-chemical fuel properties, stipulated by the Technical regulations, and ensures the improvement of fuel service characteristics such as: combustion efficiency, lower deposit buildup tendency, higher cleaning ability and anti-wear properties, lower residual viscosity (higher pumping ability), quality stability when in storage, better environmental (toxic emission properties) and fire safety.

High-performance additives "F2-21 eeFuel" provides a process for the transfer and distribution of fields (charges) and energy, occurring during nano structuring of fuels mixed with additives. There is an increase in the rate of chemical reactions in nano scale during fuel processing and combustion. The peculiarities of the morphology and temperature range of excitation levels in nano activators form cluster type organic compounds.

Physico-chemical processes occurring with the addition of the additive in the fuel are similar to aerosol nano catalysis. Fuel includes micro groups of spherical water molecules placed under a nano particle mono layer. This is a bound state of co-operative organization of substances stabilized by electrostatic forces. Aggregates and clusters are formed which are interconnected by channels having an electrical resistance lower than that of fuel.

Before ignition nano-particles in the fuel flare conduct heat from air to micro-groups of water. As a result, their temperature and pressure goes up and evaporating micro droplets of water enhance fuel dispersion (water concentration in fuel flare). Secondary aggregates and nano cluster type particles conditioned by internal hydrogen bonds break up under higher temperatures attained during combustion. The breakup is followed by formation of free radicals and electrons condensation which enables to implement a low temperature combustion. Higher temperature reduction in after-burning front to temperature level lower than that in the beginning of atomic oxygen buildup intensification process enables to indirectly control nitrogen and sulfur oxides buildup. This intensification of burning process ensures a full fuel after-burning including solid matters. Nano-particles settled on fire chamber surface ensure higher / complete combustion efficiency in areas with inaccurate air ratio. The enhancement of fuel combustion efficiency is followed by higher combustion temperature.

A high efficiency of fuel burn with additive at a minimum air-to-fuel ratio creates conditions for restoring sulfur anhydride to elementary sulfur, which is thrown off with exhaust gases in the air or settles in filters.

Combustion products loosen solid deposits on combustion chamber surfaces and clean them. When thermal power plants and compound engines are used on long-term basis, covering the units, washed by exhaust gases, with solid deposits is excluded. The additive cleaning properties ensure cleaning of storage tanks, pipelines and pumps.