Heat request arbitration device, heat request arbitration method, non-transitory storage medium, and vehicle

What is claimed is: 1. A heat request arbitration device mounted on a vehicle, the heat request arbitration device comprising: a first thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a high temperature; a second thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a low temperature; a third thermal circuit having a plurality of path patterns that are selectable as a path that is heat exchangeable with each of the first thermal circuit and the second thermal circuit by circulating a refrigerant while changing a state of the refrigerant, the second thermal circuit and the third thermal circuit being coupled via a first heat exchanger; a plurality of heat source units configured to absorb heat or radiate heat via a heat medium circulating in at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit; a derivation unit configured to derive a plurality of requests related to heat flow control of heat absorbed or radiated by each of the heat source units; and a selection unit configured to select a path for at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit so as to satisfy at least one of the requests related to the heat flow control based on the requests related to the heat flow control derived by the derivation unit. 2. The heat request arbitration device according to claim 1 , wherein: the first thermal circuit and the third thermal circuit are coupled via a second heat exchanger; and the selection unit is configured to select at least one mode of heat transfer control of the first heat exchanger and the second heat exchanger so as to satisfy at least one of the requests related to the heat flow control based on the requests related to the heat flow control derived by the derivation unit. 3. The heat request arbitration device according to claim 1 , wherein the derivation unit is configured to derive a plurality of requests related to states of the heat source units that differ from each other and that are mounted on the vehicle as the requests related to the heat flow control. 4. The heat request arbitration device according to claim 3 , wherein the requests related to the heat flow control include at least a first request, a second request, and a third request, the first request being a request for a water flow state of a radiator that is one of the heat source units, the second request being a request for a temperature state of a battery that is one of the heat source units, and the third request being a request for an air-conditioning state in a vehicle cabin that involves at least an operation of an evaporator that is one of the heat source units. 5. The heat request arbitration device according to claim 4 , wherein: a priority is given to each of the first request, the second request, and the third request; and the selection unit is configured to make a selection based on the priority so as to satisfy at least a request having a higher priority. 6. The heat request arbitration device according to claim 5 , wherein the priority is higher in the second request than in the third request, and is higher in the first request than in the second request. 7. The heat request arbitration device according to claim 1 , wherein the selection unit is configured to make a selection based on electric power consumed by the heat source units. 8. A heat request arbitration method executed by a computer of a heat request arbitration device mounted on a vehicle including a first thermal circuit, a second thermal circuit, a third thermal circuit, and a plurality of heat source units, the first thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a high temperature, the second thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a low temperature, the third thermal circuit having a plurality of path patterns that are selectable as a path that is heat exchangeable with each of the first thermal circuit and the second thermal circuit by circulating a refrigerant while changing a state of the refrigerant, the second thermal circuit and the third thermal circuit being coupled via a first heat exchanger, the heat source units being configured to absorb heat or radiate heat via a heat medium circulating in at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit, the heat request arbitration method comprising: deriving a plurality of requests related to heat flow control of heat absorbed or radiated by each of the heat source units; and selecting a path for at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit so as to satisfy at least one of the requests related to the heat flow control based on the requests related to the heat flow control that are derived. 9. A non-transitory storage medium storing instructions that are executable by one or more processors of a heat request arbitration device mounted on a vehicle including a first thermal circuit, a second thermal circuit, a third thermal circuit and a plurality of heat source units, and the instructions that cause the one or more processors to perform functions, the first thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a high temperature, the second thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a low temperature, the third thermal circuit having a plurality of path patterns that are selectable as a path that is heat exchangeable with each of the first thermal circuit and the second thermal circuit by circulating a refrigerant while changing a state of the refrigerant; the second thermal circuit and the third thermal circuit being coupled via a first heat exchanger; and the heat source units being configured to absorb heat or radiate heat via a heat medium circulating in at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit, the functions comprising deriving a plurality of requests related to heat flow control of heat absorbed or radiated by each of the heat source units; and selecting a path for at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit so as to satisfy at least one of the requests related to the heat flow control based on the requests related to the heat flow control that are derived. 10. A vehicle comprising a heat request arbitration device including: a first thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a high temperature; a second thermal circuit having a plurality of path patterns that are selectable as a path configured to circulate a coolant at a low temperature; a third thermal circuit having a plurality of path patterns that are selectable as a path that is heat exchangeable with each of the first thermal circuit and the second thermal circuit by circulating a refrigerant while changing a state of the refrigerant, the second thermal circuit and the third thermal circuit being coupled via a first heat exchanger; a plurality of heat source units configured to absorb heat or radiate heat via a heat medium circulating in at least one of the first thermal circuit, the second thermal circuit, and the third thermal circuit; a derivation unit configured to derive a plurality of requests related to heat flow control of h