Energy storage pack

What is claimed is: 1. An energy storage pack comprising: a coolant inlet manifold; a coolant outlet manifold, wherein at least one of the coolant inlet manifold and the coolant outlet manifold comprises: a plurality of thermal-exchange tube terminating structures; and a plurality of hose segments intercoupling the plurality of thermal-exchange tube terminating structures; and a plurality of thermal-exchange tubes extending between the coolant inlet manifold and the coolant outlet manifold to exchange heat between coolant passing through the plurality of thermal-exchange tubes and a plurality of battery cells mounted adjacent to and among the plurality of thermal-exchange tubes within the energy storage pack. 2. The energy storage pack of claim 1 , wherein at least some of the plurality of thermal-exchange tubes comprise a first side surface, a second side surface, and a plurality of internal ribs coupling the first side surface to the second side surface. 3. The energy storage pack of claim 2 , wherein the first side surface, the second side surface, and the plurality of internal ribs define a plurality of coolant passages. 4. The energy storage pack of claim 1 , wherein at least some of the plurality of thermal-exchange tubes comprise scallop shapes along its length, at least some of the scallop shapes corresponding to battery cells. 5. An energy storage pack comprising: a coolant inlet manifold; a coolant outlet manifold; a plurality of thermal-exchange tubes extending between the coolant inlet manifold and the coolant outlet manifold; a first clamshell; a second clamshell joined to the first clamshell to form an enclosure, the first clamshell and the second clamshell defining a plurality of battery receipt locations; electronics at least partially residing adjacent the second clamshell; a plurality of battery cells contained within the enclosure and residing within some of the plurality of battery receipt locations; and a metal cylinder thermal-exchange structure having a height greater than a height of at least one battery cell and residing within a battery receipt location of the plurality of battery receipt locations, wherein at least one of the plurality of thermal-exchange tubes resides adjacent to and provides heating and cooling to a corresponding group of battery cells of the plurality of battery cells and to the metal cylinder thermal-exchange structure. 6. The energy storage pack of claim 1 , wherein at least one of the plurality of thermal-exchange tube terminating structures comprises: two half-tanks sandwiched to a corresponding end of a thermal-exchange tube of the plurality of thermal exchange tubes; and two hose barbs, each coupled to a corresponding half-tank. 7. The energy storage pack of claim 6 , wherein the two half-tanks, the two hose barbs, and the corresponding end of the thermal-exchange tube are brazed together. 8. The energy storage pack of claim 7 , further comprising teeth that crimp together the two half-tanks. 9. The energy storage pack of claim 1 , further comprising: a coolant inlet opening located on the coolant inlet manifold; and a coolant outlet opening located on the coolant outlet manifold. 10. An energy storage pack comprising: a first clamshell; a second clamshell joined to the first clamshell to form an enclosure, the first clamshell and the second clamshell defining a plurality of battery receipt locations; a plurality of battery cells residing within at least some of the plurality of battery receipt locations; a heating/cooling system comprising: a plurality of thermal-exchange tubes running adjacent to and providing heating and cooling to the plurality of battery cells; a coolant inlet manifold coupled to first ends of the plurality of thermal exchange tubes; and a coolant outlet manifold coupled to second ends of the plurality of thermal exchange tubes, wherein at least one of the coolant inlet manifold and the coolant outlet manifold comprises: a plurality of thermal-exchange tube terminating structures; and a plurality of hose segments intercoupling the plurality of thermal-exchange tube terminating structures; electronics at least partially residing adjacent the second clamshell; and at least one thermal-exchange structure residing within at least one of the plurality of battery receipt locations to exchange heat between the electronics and the plurality of thermal-exchange tubes. 11. The energy storage pack of claim 10 , wherein, wherein the at least one thermal-exchange structure comprises a cylinder having a height greater than a height of a battery cell residing within an adjacent battery opening. 12. The energy storage pack of claim 10 , further comprising a second thermal-exchange structure located between the at least one thermal-exchange structure and the electronics. 13. The energy storage pack of claim 12 , wherein the second thermal-exchange structure comprises a metal plate. 14. The energy storage pack of claim 10 , wherein at least one of the plurality of thermal-exchange tube terminating structures comprises: two half-tanks sandwiched to a corresponding end of a thermal-exchange tube of the plurality of thermal-exchange tubes; and two hose barbs, each coupled to a corresponding half-tank. 15. The energy storage pack of claim 14 , wherein the two half-tanks, the two hose barbs, and the corresponding end of the thermal-exchange tube are brazed together. 16. The energy storage pack of claim 10 , wherein at least some of the thermal-exchange tubes comprise a first side surface, a second side surface, and a plurality of internal ribs coupling the first side surface to the second side surface. 17. The energy storage pack of claim 16 , wherein the first side surface, the second side surface, and the plurality of internal ribs define a plurality of coolant passages. 18. The energy storage pack of claim 10 , wherein at least some of the plurality of thermal-exchange tubes comprise scallop shapes along its length, at least some of the scallop shapes corresponding to battery cells. 19. The energy storage pack of claim 5 , further comprising a plurality of thermal-exchange tube terminating structures, at least some of which include: two half-tanks sandwiched to a corresponding end of a thermal-exchange tube of the plurality of thermal-exchange tubes; and two hose barbs, each coupled to a corresponding half-tank. 20. The energy storage pack of claim 19 , wherein the two half-tanks, the two hose barbs, and the corresponding end of the thermal-exchange tube are brazed together. 21. The energy storage pack of claim 20 , further comprising teeth that crimp together the two half-tanks.