Battery pack cooling system

The invention claimed is: 1. A battery pack cooling system comprising: a battery pack case housing a battery module; a cooling fluid passage through which cooling fluid for cooling the battery module is to flow, the cooling fluid passage disposed in a vicinity of the battery module; a cooling medium passage through which cooling medium is to flow, the cooling medium passage configured to exchange heat with the cooling fluid and disposed so as to be exposed to a space in the battery pack case; and a water absorber made of a water absorbable material, the water absorber being configured to absorb water that is condensed on the cooling medium passage, and wherein the battery module, the cooling fluid passage, the cooling medium passage and the water absorber are in a stacked arrangement and are all retained within a common, single space region defined by the battery pack case. 2. The battery pack cooling system according to claim 1 , wherein the water absorber is disposed so as to surround the cooling medium passage. 3. A battery pack cooling system comprising: a battery pack case housing a battery module; a cooling fluid passage through which cooling fluid for cooling the battery module is to flow, the cooling fluid passage disposed in a vicinity of the battery module; a cooling medium passage through which cooling medium is to flow, the cooling medium passage configured to exchange heat with the cooling fluid and disposed so as to be exposed to a space in the battery pack case; a water absorber made of a water absorbable material, the water absorber being configured to absorb water that is condensed on the cooling medium passage; a surrounding temperature detector configured to measure a surrounding temperature; and an arithmetic controller, and wherein the arithmetic controller is configured to, when the surrounding temperature measured by the surrounding temperature detector is a predetermined value or lower, extract the cooling medium from the cooling medium passage. 4. The battery pack cooling system according to claim 2 , further comprising: a surrounding temperature detector configured to measure a surrounding temperature; and an arithmetic controller, wherein the arithmetic controller is configured to, when the surrounding temperature measured by the surrounding temperature detector is a predetermined value or lower, extract the cooling medium from the cooling medium passage. 5. The battery pack cooling system according to claim 1 , wherein the water absorber is disposed farther from the battery module than the cooling medium passage. 6. The battery pack cooling system according to claim 2 , wherein the water absorber is disposed farther from the battery module than the cooling medium passage. 7. The battery pack cooling system according to claim 3 , wherein the water absorber is disposed farther from the battery module than the cooling medium passage. 8. The battery pack cooling system according to claim 4 , wherein the water absorber is disposed farther from the battery module than the cooling medium passage. 9. The battery pack cooling system according to claim 1 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 10. The battery pack cooling system according to claim 2 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 11. The battery pack cooling system according to claim 3 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 12. The battery pack cooling system according to claim 4 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 13. The battery pack cooling system according to claim 5 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 14. The battery pack cooling system according to claim 6 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 15. The battery pack cooling system according to claim 7 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 16. The battery pack cooling system according to claim 8 , wherein the battery module comprises stacked battery cells that are disposed in a stacked state, the cooling fluid passage is long and thin along a direction in which the battery cells are stacked, and the cooling medium passage extends along the direction in which the battery cells are stacked. 17. The battery pack cooling system according to claim 1 , wherein the water absorber is a pad that extends beyond opposite, external most peripheral edges of the cooling medium passage in a direction of cooling fluid flow. 18. The battery pack cooling system of claim 1 , further comprising a heat transfer sheet that is retained in the stack as to be in direct contact with a bottom region of the battery module and an upper region of the cooling fluid passage. 19. The battery pack cooling system of claim 1 , wherein an underside of the cooling fluid passage includes an uneven lower surface defining a plurality of elongated recesses in which are received, in direct contact, portions of the cooling medium passage. 20. The battery pack cooling system of claim 18 , wherein an underside of the cooling fluid passage includes an uneven lower surface defining a plurality of elongated recesses in which are received, in direct contact, portions of the cooling medium passage. 21. A battery pack cooling system comprising: a battery pack case housing a battery module; a cooling fluid passage through which cooling fluid for cooling the battery module is to flow, the cooling fluid passage disposed in a vicinity of the battery module; a cooling medium passage through which cooling medium is to flow, the cooling medium passage configured to exchange heat with the cooling fluid and disposed so as to be exposed to a space in the battery pack case; and a water absorber made of a water absorbable material, the water absorber being configured to absor