Energy management system

The invention claimed is: 1. An energy management system applied to a vehicle, the vehicle has: a first power source that radiates heat to a first heat medium when generating power by converting an energy of a fuel supplied from an outside; a first converter that converts the power generated in the first power source into an electricity; an electricity storage part that stores the electricity converted in the first converter; and a second power source that generates power by converting the electricity stored in the electricity storage part; the energy management system comprising: a second converter that converts the electricity converted in the first converter into heat; a heat storage part that stores the heat converted in the second converter; a mode switching part that switches between a heat storage mode in which the heat storage part stores the heat converted in the second converter and a heat radiation mode in which the heat storage part radiates the heat to a heat transfer target; and a controller that controls operations of the second converter and the mode switching part, wherein the heat storage part changes to a first phase in a solid state when a temperature of the heat storage part is lower than or equal to a phase transition temperature, and changes to a second phase in a solid state when a temperature of the heat storage part exceeds the phase transition temperature, the heat storage part stores heat or radiates heat due to a phase transition between the first phase and the second phase, and the controller controls the operations of the second converter and the mode switching part based on at least one of an electricity storage condition of the electricity storage part and a conversion condition of the first converter. 2. The heat management system according to claim 1 , wherein the controller controls the operation of the second converter to convert the electricity into heat and controls the operation of the mode switching part to perform the heat storage mode, when an electricity storage amount in the electricity storage part is larger than or equal to a predetermined reference electricity storage amount. 3. The heat management system according to claim 1 , wherein the controller controls the operation of the second converter to convert the electricity into heat and controls the operation of the mode switching part to perform a heat storage mode, when a conversion speed converting the power into the electricity in the first converter is faster than or equal to a predetermined reference speed. 4. The heat management system according to claim 1 , wherein the heat transfer target is the first power source, the heat storage part, in the heat storage mode, stores both of heat converted in the second converter and heat of the first heat medium, and the heat storage part, in the heat radiation mode, radiates the heat stored therein to the first power source through the first heat medium. 5. The heat management system according to claim 1 , wherein the heat transfer target is the electricity storage part, the vehicle has a second heat medium passage in which a second heat medium flows, the second heat medium is a fluid that receives or supplies heat between each of the heat storage part and the electricity storage part, the electricity storage part radiates heat to the second heat medium, the heat storage body, in the heat storage mode, stores both of heat converted in the second converter and heat of the second heat medium, and the heat storage body, in the heat radiation mode, radiates the heat stored therein to the electricity storage part through the second heat medium. 6. The heat management system according to claim 1 , wherein the vehicle has a vehicle air conditioner that air conditions a vehicle compartment by blowing air for air conditioning into the vehicle compartment, the heat transfer target is the air for air conditioning, and the heat storage part, in the heat radiation mode, radiates heat stored therein to the air for air conditioning. 7. The heat management system according to claim 1 , wherein the heat storage part has a heat storage layer, which is made of a strongly correlated electron system compound, and a high heat conductivity layer, which is made of a material having greater heat conductivity relative to the heat storage layer. 8. The heat management system according to claim 1 , wherein the heat storage part is configured by a compound including a strongly correlated electron system compound and an inorganic compound. 9. The heat management system according to claim 1 , wherein the heat storage part has a heat storage layer, which is made of a strongly correlated electron system compound, and a heat transfer part, which increases a heat transfer area transferring heat to and from the heat storage layer.