Cooling system and cooling method

What is claimed is: 1. A cooling system configured to cool an engine of a vehicle, the cooling system comprising: a cooling water passage through which cooling water is supplied to a water jacket formed in the engine, and having an undercover cooling water passage provided in an undercover forming a bottom surface of the vehicle and where the cooling water is cooled by exchanging heat with air flowing below the vehicle; a radiator provided in the cooling water passage and configured to cool the cooling water by exchanging heat with air flowing into an engine bay from a grille that is an opening portion formed at a front end of the vehicle; a flow rate adjuster including a pump or valve, configured to adjust a flow rate of the cooling water supplied to the undercover cooling water passage; a grille shutter provided to the grille and configured to change an effective opening area of the grille; and a controller configured to determine an abnormality of the grille shutter and control the flow rate adjuster, the controller controlling, upon determining that the grille shutter has the abnormality, the flow rate adjuster to increase the flow rate of the cooling water supplied to the undercover cooling water passage compared to when determined that the grille shutter has no abnormality. 2. The cooling system of claim 1 , wherein the cooling water passage has a bypass passage connecting a branching portion disposed at a position upstream of the radiator and downstream of the undercover cooling water passage, to a merging portion disposed at a position downstream of the radiator and upstream of the engine, wherein the flow rate adjuster includes the valve which is configured to adjust a flow rate of the cooling water supplied from the branching portion to the bypass passage, and wherein the controller controls, upon determining that the grille shutter has the abnormality, the valve to increase the flow rate of the cooling water supplied to the bypass passage from the branching portion compared to when determined that the grille shutter has no abnormality. 3. The cooling system of claim 2 , wherein the controller acquires a traveling speed of the vehicle and, as the acquired traveling speed increases, controls the flow rate adjuster to increase the flow rate of the cooling water supplied to the undercover cooling water passage. 4. The cooling system of claim 1 , wherein the controller acquires a traveling speed of the vehicle and, as the acquired traveling speed increases, controls the flow rate adjuster to increase the flow rate of the cooling water supplied to the undercover cooling water passage. 5. The cooling system of claim 1 , wherein the cooling water is cooled by exchanging heat with air flowing above and below the undercover. 6. A method of cooling an engine of a vehicle, the vehicle is mounted thereon with a cooling system having a cooling water passage through which cooling water is supplied to a water jacket formed in the engine, and having an undercover cooling water passage provided in an undercover forming a bottom surface of the vehicle and where the cooling water is cooled by exchanging heat with air flowing below the vehicle, a radiator provided in the cooling water passage and configured to cool the cooling water by exchanging heat with air flowing into an engine bay from a grille that is an opening portion formed at a front end of the vehicle, and a grille shutter provided to the grille and configured to change an effective opening area of the grille, the method comprising: determining an abnormality of the grille shutter; and increasing, upon determining that the grille shutter has the abnormality, a flow rate of the cooling water supplied to the undercover cooling water passage compared to when determined that the grille shutter has no abnormality.