Heat energy recovery system

The invention claimed is: 1. A heat energy recovery system, comprising: an evaporator for performing heat exchange between supercharged air to be supplied to an engine and working medium to thereby evaporate the working medium; a superheater for performing heat exchange between the working medium flown from the evaporator and heating medium to thereby heat the working medium; an expander for expanding the working medium flown from the superheater; a power recovery device connected to the expander; a condenser for condensing the working medium flown from the expander; a pump for causing the working medium to flow from the condenser to the evaporator; and a controller including an engine load calculation section for calculating an engine load, a maximum rotation speed determination section for determining a maximum rotation speed which is a rotation speed of the pump obtained when a pinch temperature reaches a target pinch temperature, the pinch temperature being a value which is obtained by subtracting a saturation temperature of the working medium from a temperature of the supercharged air in the evaporator, the determination being based on a relational expression representing a relationship between the engine load and the maximum rotation speed, and an engine load calculated by the engine load calculation section, and a rotation speed regulation section for regulating the rotation speed of the pump in such a way as to allow the degree of superheat of the working medium flowing into the expander to be equal to or greater than a reference value, and to allow the rotation speed to be equal to or less than a maximum rotation speed determined by the maximum rotation speed determination section. 2. The heat energy recovery system according to claim 1 , wherein when the degree of superheat of the working medium flowing into the expander is equal to or greater than the reference value, and the rotation speed of the pump is equal to or less than the maximum rotation speed, the rotation speed regulation section increases the rotation speed of the pump so that the degree of superheat of the working medium flowing into the expander is equal to or less than a specified value higher than the reference value, while keeping the rotation speed equal to or less than the maximum rotation speed. 3. The heat energy recovery system according to claim 2 , wherein the controller further includes a heating medium regulation section for reducing, when the rotation speed of the pump is equal to the maximum rotation speed and the degree of superheat of the working medium flowing into the expander is greater than the specified value, the amount of the heating medium to be supplied to the superheater so that the degree of superheat is equal to or less than the specified value. 4. The heat energy recovery system according to claim 1 , wherein the engine load calculation section calculates an engine load based on the amount of fuel supplied to the engine. 5. The heat energy recovery system according to claim 1 , wherein the engine load calculation section calculates an engine load based on the rotation speed of a supercharger which supplies the supercharged air to the engine.