| Abstract: | The combustion of hydrocarbon (HC) fuels in internal combustion (IC) engines is modified by the presence of a few parts per million of megadalton molecular weight elastomers. The viscoelasticity imparted provides: reduced fuel vaporization, lesser back pressure, larger average droplet sizes, and lower combustion chamber temperatures. These effects result in: a reduction of emissions of HC, CO and NOx of more than 70%, a substantial decrease in the number of particulates from diesel engines, a drop in combustion temperatures of more than 30vv°C, increases in engine power of more than 10%, an improved fuel octane rating, and economies of fuel consumption of more than 20%. The results are magnified during transitions, especially in the lower gears, used more often in urban traffic, where normal fuels emit more pollutants. These effects have a positive public health impact due to reductions in ozone, acid rain, particulates and partially oxidized HC. |
