Turbocharged engine cooling system control with fuel economy optimization

1. A cooling system control for an internal combustion engine having coolant passages therethrough, a turbocharger for increasing the density of inlet air thereto, an aftercooler for cooling the inlet air from the turbocharger so as to increase engine power and a cooling system, the cooling system comprising an engine coolant loop having an engine pump, an engine radiator and an engine coolant conduit connecting the engine pump, the coolant passages of the engine and the engine radiator for circulation of liquid coolant, the cooling apparatus further comprising an aftercooler coolant loop comprising an aftercooler pump, an aftercooler radiator and an aftercooler coolant conduit connecting the aftercooler pump, the aftercooler and the aftercooler radiator for circulation of liquid coolant, the cooling apparatus further comprising a linking conduit having a link valve therein connecting the engine and aftercooler coolant loops, the link valve maintaining separate coolant flows in the engine coolant loop and the aftercooler coolant loop while closed and permitting controlled mixing of the coolant flows in the engine coolant loop and the aftercooler coolant loop while open, the cooling apparatus further comprising a fan apparatus powered by the engine and providing variable cooling air flow through the engine and aftercooler radiators in a plurality of selectable, discrete cooling levels, the cooling control comprising:

• an engine cooling control responsive to a coolant temperature in the engine coolant loop to operate the fan apparatus at a selected one of the plurality of selectable, discrete cooling levels in response to the temperature of coolant in the engine cooling loop and to derive and output a signal indicative of a desired level of cooling between the selected one and an adjacent one of the plurality of selectable, discrete cooling levels; and
  
  an aftercooler cooling control responsive to a coolant temperature in the aftercooler coolant loop and the signal output by the engine cooling control, when the signal indicates a desired increase in engine cooling, to determine whether the desired increase in engine cooling is more efficiently provided by stepping to the next one of the plurality of selectable, discrete cooling levels of the fan apparatus or by opening the link valve and to provide the desired increase in engine cooling by opening the link valve only in the latter case to vary the temperature of coolant in the engine cooling loop, by controlled mixing with coolant of lower temperature in the aftercooler coolant loop, so as to achieve the desired level of cooling indicated by the signal.