Waste heat recovery device, heat supply system, and operation method for waste heat recovery device

The invention claimed is: 1. A waste heat recovery device that recovers heat of a first heat medium and transfers that heat to a second heat medium, the waste heat recovery device comprising: a first heat medium side inlet where the first heat medium flows in; a first heat medium side outlet where the first heat medium flows out; a first heat medium flow path where the first heat medium flows from the first heat medium side inlet to the first heat medium side outlet; a first pump provided in the first heat medium flow path and causing the first heat medium to flow in the first heat medium flow path; a second heat medium side inlet where the second heat medium flows in; a second heat medium side outlet where the second heat medium flows out; a second heat medium flow path where the second heat medium flows from the second heat medium side inlet to the second heat medium side outlet; a heat exchanger that exchanges heat between the first heat medium that flows through the first heat medium flow path and the second heat medium that flows through the second heat medium flow path; an expansion tank provided in the first heat medium flow path; a bypass flow path that causes the first heat medium to flow so as to bypass the heat exchanger in the first heat medium flow path; and a mixer provided at a location where the bypass flow path and the first heat medium flow path merge together, the mixer configured to adjust a ratio of a flow rate of the first heat medium that flows through the bypass flow path and a flow rate of the first heat medium that flows through the heat exchanger, thereby mixing them such that the temperature of the first heat medium after merging approaches a predetermined temperature, wherein the first pump is provided in the first heat medium flow path between the first heat medium side inlet and the heat exchanger and the mixer, wherein the expansion tank is provided in the first heat medium flow path between the first heat medium side inlet and the first pump, the inside of the expansion tank being open to the atmosphere, and wherein the first heat medium that has flowed from the first heat medium side inlet in the first heat medium flow path flows in sequence through the expansion tank, the first pump, and at least the mixer from the heat exchanger and the mixer, and flows out from the first heat medium side outlet. 2. The waste heat recovery device according to claim 1 , wherein the expansion tank is configured to be connected to a branched flow path that branches from within the first heat medium flow path. 3. The waste heat recovery device according to claim 1 , comprising: a first branched flow path configured to connect a first branching location in the first heat medium flow path to the expansion tank; a second branched flow path configured to connect a second branching location in the first heat medium flow path on the downstream side from the first heat medium side inlet and on the upstream side from the first branching location to the expansion tank; and a flow rate adjustment mechanism capable of adjusting, among the first heat medium that flows to the second branching location through the first heat medium flow path, the amount of the first heat medium allowed to reach the expansion tank through the second branched flow path. 4. The waste heat recovery device according to claim 3 , wherein the second branched flow path is connected to a lower portion of the expansion tank. 5. The waste heat recovery device according to claim 3 , wherein the flow rate adjustment mechanism includes a switching valve that switches whether to cause the entire amount of the first heat medium that flows through the first heat medium flow path to the second branching location to reach the expansion tank through the second branched flow path, or alternatively, to reach the first branching location through the first heat medium flow path without passing through the second branched flow path. 6. The waste heat recovery device according to claim 3 , wherein the flow rate adjustment mechanism includes a first flow rate adjustment valve that is provided in the first heat medium flow path between the second branching location and the first branching location, and can adjust the amount of the first heat medium that flows through the first heat medium flow path, and a second flow rate adjustment valve that is provided in the second branched flow path between the second branching location and the expansion tank, and can adjust the amount of the first heat medium that flows through the second branched flow path. 7. The waste heat recovery device according to claim 1 , wherein the expansion tank has an opening configured to be opened to the outside, and the waste heat recovery device is provided with a tube configured for one end of the tube to be connected to the opening and the other end of the tube to be opened to the atmosphere, the tube having a length such that in a state with one end of the tube connected to the opening, the other end of the tube can be drawn outdoors. 8. The waste heat recovery device according to claim 1 , wherein the mixer is a temperature-sensitive mixing valve that senses the temperature of the first heat medium after the merging, and adjusts a ratio of a flow rate of the first heat medium that flows through the bypass flow path and a flow rate of the first heat medium that flows through the heat exchanger, thereby mixing them together, and is configured to be capable of changing the setting of the predetermined temperature. 9. The waste heat recovery device according to claim 1 , comprising: an external container, the waste heat recovery device having the first heat medium side inlet, the first heat medium side outlet, the second heat medium side inlet, and the second heat medium side outlet on a surface of the external container, and the waste heat recovery device having the first heat medium flow path, the second heat medium flow path, the heat exchanger, the expansion tank, the bypass flow path, and the mixer on the inside of the external container. 10. The waste heat recovery device according to claim 1 , comprising: a flow rate adjuster provided in the first heat medium flow path between the first pump and the first heat medium side outlet, and configured to adjust the flow rate of the first heat medium that flows out from the first heat medium side outlet. 11. A heat supply system, comprising: a second heat medium return path configured such that after a heat utilization unit that utilizes heat being held by the second heat medium has utilized the heat, the second heat medium is returned from the heat utilization unit, the second heat medium return path causing the flow of the second heat medium to be branched at a branching portion in the second heat medium return path; a second heat medium supply path configured to supply the second heat medium to the heat utilization unit, the second heat medium supply path causing the second heat medium that flowed in a branched manner to merge at a merging portion in the path; the waste heat recovery device according to claim 1 , in which the second heat medium return path after branching at the branching portion is connected to the second heat medium side inlet, and the second heat medium supply path is connected to the second heat medium side outlet; a first heat source device that heats the first heat medium to be supplied from the waste heat recovery device through a first heat medium supply path configured to be connected to the first heat medium side outlet, and supplies the heated first heat medium to the waste heat recovery device through a first heat medium return path configured to be