Thermoelectric power generation system

The invention claimed is: 1. A thermoelectric power generation device comprising: a heating unit having a heat medium passage in which a heat medium flows; a cooling unit having a cooling liquid passage in which a cooling liquid flows; and a thermoelectric element having the heating unit on one side of the thermoelectric element and the cooling unit on another side of the thermoelectric element, the thermoelectric element configured to generate power by utilizing a temperature difference between a condensation temperature of the heat medium that undergoes latent heat transfer in the heat medium passage and a temperature of the cooling liquid; and a heat transfer pipe distinct from the heating unit and arranged in a flow path to serve as a heat source, and communicated with the heat medium passage to form a circulation path in which the heat medium is circulated, the thermoelectric power generation device further comprising: a power generation output detection unit configured to detect a power generation output of the thermoelectric element; a heat medium temperature detection unit configured to detect a temperature of the heat medium; a cooling liquid temperature detecting unit configured to detect a temperature of the cooling liquid; a storage unit for storing, in advance, a relationship between a power generation output of the thermoelectric element and a difference between the temperature of the heat medium and the temperature of the cooling liquid, when the thermoelectric power generation device is in a normal state; and an abnormality detection unit configured to detect that an abnormality is taking place in the thermoelectric power generation device, when a relationship between the power generation output detected by the power generation output detection unit and the difference between the temperature detected by the heat medium temperature detection unit and the temperature detected by the cooling liquid temperature detecting unit is different from the relationship stored in the storage unit. 2. The thermoelectric power generation device according to claim 1 , wherein an entirety of the heating unit is arranged outside of the flow path. 3. The thermoelectric power generation device according to claim 1 , wherein a first end of the heat transfer pipe is coupled to the heating unit. 4. The thermoelectric power generation device according to claim 3 , wherein a second end of the heat transfer pipe is coupled to the heating unit. 5. The thermoelectric power generation device according to claim 1 , wherein the flow path includes a duct. 6. The thermoelectric power generation device according to claim 5 , wherein the duct is configured for a flow of exhaust gas. 7. The thermoelectric power generation device according to claim 1 , wherein the circulation path includes a first portion associated with the heating unit and a second portion associated with the heat transfer pipe. 8. The thermoelectric power generation device according to claim 7 , wherein the heat medium in the first portion of the circulation path is configured to be heated based on a high temperature fluid flowing in the flow path. 9. The thermoelectric power generation device according to claim 7 , wherein the first portion of the circulation path is distinct from the second portion of the circulation path. 10. The thermoelectric power generation device according to claim 1 , wherein the heating unit, the cooling unit, and the thermoelectric element are arranged outside of the flow path. 11. The thermoelectric power generation device according to claim 1 , wherein the circulation path is a closed path.