Fuel management system for variable ethanol octane enhancement of gasoline engines

The invention claimed is: 1. A spark ignition engine which is fueled with gasoline and ethanol where ethanol is introduced into at least one engine cylinder in such a way that vaporization of ethanol provides a rate of octane enhancement as a function of ethanol energy fraction that is at least 20 octane numbers for an increase in ethanol energy fraction of 0 to 100%. 2. The spark ignition engine of claim 1 where ethanol and gasoline are directly injected into the engine. 3. The spark ignition engine of claim 1 where ethanol is injected so as to produce a non-uniform distribution which increases the knock resistance. 4. The spark ignition engine of claim 1 where ethanol is injected so as to provide a higher concentration in the end gas region. 5. The spark ignition engine of claim 1 where ethanol is injected so as provide a higher concentration in the periphery of the cylinder. 6. The spark ignition engine of claim 1 where swirl is employed. 7. The spark ignition engine of claim 1 where the direct injection of ethanol provides about 13 degrees C. of cooling for each 10% of the fuel energy that is provided by the ethanol. 8. The spark ignition engine of claim 1 where the evaporation of the ethanol provides at least a 4 octane number increase for a 20% increase in fuel energy that is provided by ethanol. 9. A spark ignition engine which is fueled with gasoline and ethanol where ethanol is introduced into at least one engine cylinder in such a way that the evaporation of the ethanol provides at least a 2 octane number increase for a 10% increase in fuel energy that is provided by ethanol. 10. The spark ignition engine of claim 9 where spark retard is increased when the ethanol energy fraction is decreased. 11. The spark ignition engine of claim 9 where the turbocharging level is decreased when the ethanol energy fraction is decreased. 12. The spark ignition engine of claim 9 where the direct injection of ethanol provides around 13 degrees C. of cooling for each 10% of the fuel energy that is provided by the ethanol. 13. The spark ignition engine of claim 9 where ethanol and gasoline are directly injected into the engine. 14. The spark ignition engine of claim 9 where ethanol is injected so as to provide a higher concentration in the end gas region. 15. A fuel management system for a turbocharged spark ignition engine that controls fueling from a first fueling system that directly injects fuel into at least one cylinder as a liquid and provides octane enhancement by vaporization cooling and from a second fueling system that provides fuel to the cylinder using port fuel injection; and where when the torque is increased to a selected value fueling from the first fueling system is needed to prevent knock and both fueling systems are used and where as torque is increased the fraction of fuel provided by the first fueling system increases and is determined by the requirement to prevent knock. 16. The fuel management system of claim 15 where the fraction of fuel provided by the first fueling system is matched to that needed to prevent knock as the torque increases to its maximum value. 17. The fuel management system of claims 15 or 16 where above the selected value of torque the fraction of fuel provided by the first fueling system is a minimum value needed to prevent knock. 18. The fuel management system of claim 15 where 100% of the fuel is provided by the first fueling system at some value of torque. 19. The fuel management system of claim 15 where increased spark retard is used to reduce the fraction of fuel provided by the first fueling system while preventing knock. 20. The fuel management system of claim 15 where closed loop control using a knock detector is used to control the fraction of fuel provided by the first fueling system. 21. The fuel management system of claim 20 where open loop control using a lookup table is employed. 22. The fuel management system of claim 15 where as the torque is decreased below the selected value of torque only the second fueling system provides fuel to the cylinder. 23. The fuel management system of claim 22 where increased spark retard is used to prevent knock that would otherwise occur when the first fueling system is not used. 24. The fuel management system of claim 19 or 23 where the increased spark retard is controlled by information from a sensed parameter as well as information about knock. 25. The fuel management system of claim 15 where as torque is increased the fraction of fuel that is provided by the first fueling system matches that needed to prevent knock. 26. The fuel management system of claim 15 where at some torque below the selected value of torque only the second fueling system is employed. 27. The fuel management system of claim 15 where throughout the torque range above the selected value of torque the fraction of fuel that is provided by the first fueling system matches that needed to prevent knock. 28. A fuel management system for a turbocharged spark ignition engine that controls fueling from a first fueling system that directly injects fuel into at least one cylinder as a liquid and provides octane enhancement by vaporization cooling and from a second fueling system that provides fuel to the cylinder using port fuel injection; and where there is a selected engine operating range where both fueling systems are used; and where as the required octane enhancement by vaporization cooling changes the fraction of fuel that is provided by the first fueling system is determined by the requirement to prevent knock and where as the knock resistance requirement increases the fraction of fuel provided by the first fueling system increases so as to prevent knock. 29. The fuel management system of claim 28 where the fraction of fuel provided by the first fueling system is minimized over the selected engine operating range while preventing knock. 30. The fuel management system of claim 28 where when no octane enhancement is needed by vaporization cooling is needed only the second fueling system is used. 31. The fuel management system of claim 30 where increased spark retard is used to enable knock free operation with use of the second fueling system alone where knock would otherwise occur. 32. The fuel management system of claim 31 where the increased spark retard is controlled by information from a sensed parameter as well as information about knock. 33. The fuel management system of claim 28 where when engine operating conditions are changed the octane enhancement from vaporization cooling is changed so that it matches that needed to prevent knock. 34. The fuel management system of claim 28 where when the greatest octane enhancement from vaporization cooling is required this octane enhancement is minimized.