Cooling system for electric propulsion system of watercraft

What is claimed is: 1. A cooling system for a boat, comprising: at least one cooler disposed inside a hull of the boat and closed to the exterior of the hull, the cooler configured for the exchange of thermal energy between a flow of coolant in the at least one cooler and a fluid flow outside of the hull via a hull wall disposed between the flow of coolant and the fluid flow; and one or more coolant passages extending from the at least one cooler defining at least one coolant loop, the one or more coolant passages configured to deliver the flow of coolant from the at least one cooler to one or more components disposed along the at least one coolant loop to cool the one or more components, and return the flow of coolant to the at least one cooler; wherein the at least one cooler is disposed at a chine of the hull; and wherein a chine closure is secured to an interior of the hull to enclose a chine recess defined by the chine, the enclosed chine recess defining a cooler of the at least one cooler. 2. The cooling system of claim 1 , wherein the chine closure is secured to the interior of the hull via welding. 3. The cooling system of claim 1 , wherein the hull is formed from aluminum. 4. The cooling system of claim 1 , wherein the one or more components are one or more electrical components of a boat propulsion system. 5. The cooling system of claim 1 , further comprising a pump to urge the flow of coolant along the at least one coolant loop. 6. The cooling system of claim 1 , wherein the at least one cooler is two coolers disposed at opposing lateral sides of the hull. 7. The cooling system of claim 6 , wherein the at least one cooling loop is two coolant loops and wherein a first coolant loop of the two coolant loops includes a first cooler of the two coolers, and a second coolant loop of the two coolant loops includes a second cooler of the two coolers. 8. The cooling system of claim 7 , wherein the first coolant loop and the second coolant loop are configured and arranged to cool different components of the one or more components. 9. The cooling system of claim 1 , wherein the fluid flow is one of water or air. 10. A boat, comprising: a hull; a propulsion system disposed in the hull and configured to propel the hull; a cooling system disposed in the hull and configured to cool one or more components of the propulsion system, the cooling system including: at least one cooler disposed inside the hull and closed to the exterior of the hull, the cooler configured for the exchange of thermal energy between a flow of coolant in the at least one cooler and a fluid flow outside of the hull via a hull wall disposed between the flow of coolant and the fluid flow; and one or more coolant passages extending from the at least one cooler defining at least one coolant loop, the one or more coolant passages configured to deliver the flow of coolant from the at least one cooler to the one or more components disposed along the at least one coolant loop to cool the one or more components, and return the flow of coolant to the at least one cooler, wherein the at least one cooler is disposed at a chine of the hull; and wherein a chine closure is secured to an interior of the hull to enclose a chine recess defined by the chine, the enclosed chine recess defining a cooler of the at least one cooler. 11. The boat of claim 10 , wherein the at least one cooler is two coolers disposed at opposing lateral sides of the hull. 12. The boat of claim 11 , wherein the at least one cooling loop is two coolant loops and wherein a first coolant loop of the two coolant loops includes a first cooler of the two coolers, and a second coolant loop of the two coolant loops includes a second cooler of the two coolers. 13. The boat of claim 12 , wherein the first coolant loop and the second coolant loop are configured and arranged to cool different components of the one or more components. 14. The boat of claim 10 , wherein the propulsion system is an electrical propulsion system including: an electric motor; a prop operably connected to the electric motor and driven thereby; and one or more batteries operably connected to the electric motor to provide electrical power to the electric motor; wherein the one or more components include at least one of the electric motor or the one or more batteries. 15. The boat of claim 10 , further comprising: a center hull; and two outer hulls disposed laterally outboard of the center hull; wherein the at least one cooler is disposed in an outer hull of the two outer hulls. 16. A method of cooling one or more propulsion system components of a boat, comprising: urging a coolant flow through at least one chine cooler disposed inside a hull of the boat and abutting an external hull wall; exchanging thermal energy between the coolant flow in the at least one chine cooler and a fluid flow outside of the hull via the external hull wall disposed between the flow of coolant and the fluid flow; directing the coolant flow from the at least one chine cooler along one or more coolant passages defining at least one coolant loop; cooling the one or more propulsion system components disposed along the at least one coolant loop via thermal energy exchange between the coolant flow and the one or more propulsion system components; and urging the coolant flow from the coolant loop to the at least one chine cooler; wherein the at least one chine cooler is disposed at a chine of the hull; and wherein a chine closure is secured to an interior of the hull to enclose a chine recess defined by the chine, the enclosed chine recess defining a chine cooler of the at least one chine cooler.