Energy storage enclosure

What is claimed is: 1. An energy storage module comprising: an energy storage enclosure made from a foam material and including three wall members that form a U-shape, each wall member extending in a longitudinal direction; first and second side plates positioned at opposite ends of the energy storage enclosure, wherein the side plates are not made of a foam material; a storage unit arranged in the energy storage enclosure such that the storage unit is in contact with the energy storage enclosure, the storage unit comprising an energy storage cell arranged adjacent to and stacked with a cooling plate in the longitudinal direction, the cooling plate being in thermal contact with the energy storage cell and comprising channels running through the cooling plate for providing cooling to the energy storage cell; and means for compressing the energy storage enclosure arranged to apply a force on the energy storage enclosure and the storage unit in the longitudinal direction, wherein the means for compressing is cooperable with the side plates to apply the force; wherein the energy storage enclosure is resilient in the longitudinal direction, such that when a force is applied in the longitudinal direction on the energy storage enclosure and the storage unit by the means for compressing, the energy storage enclosure is compressed, and a contact pressure between the cooling plate and the energy storage cell is limited by the energy storage enclosure, and wherein, when the side plates are not positioned at the opposite ends of the energy storage enclosure, the opposite ends of the energy storage enclosure are open. 2. The energy storage module according to claim 1 wherein the side plates are arranged to seal the energy storage enclosure in the longitudinal direction, the side plates being in contact with the wall members. 3. The energy storage module according to claim 1 wherein the storage unit comprises an additional energy storage cell stacked with the cooling plate such that the cooling plate is in thermal contact with the additional energy storage cell. 4. A battery pack comprising a plurality of energy storage modules according to claim 1 . 5. The battery pack according to claim 4 wherein the energy storage modules are stacked in the longitudinal direction, and the means for compressing is arranged to apply the force on the battery pack in the longitudinal direction causing a compression of each energy storage enclosure of the battery pack. 6. The battery pack according to claim 5 further comprising a housing arranged to accommodate the energy storage modules. 7. The energy storage module according to claim 1 wherein the means for compressing comprises a compressing element arranged to extend from a first end of the storage unit to a second end of the storage unit in the longitudinal direction. 8. The energy storage module according to claim 7 wherein the energy storage enclosure has a through-hole that extends through an entire length of one of the wall members, and wherein the compressing element is a pin-bolt configured to extend through the through-hole. 9. The energy storage module according to claim 1 wherein the side plates are arranged to apply the force on the wall members. 10. The energy storage module according to claim 1 wherein the foam material is expanded polypropylene (EPP). 11. The energy storage module according to claim 1 wherein at least one of the wall members comprises flanges arranged on an outer surface, and wherein the flanges extend in the longitudinal direction from one end of the at least one wall member to an opposite end of the at least one wall member. 12. The energy storage module according to claim 1 wherein the energy storage enclosure is a one piece structure. 13. The energy storage module according to claim 1 further comprising a transfer conduit to transfer a coolant to the cooling plate, wherein one of the wall members of the energy storage enclosure comprises a groove formed in an inner side of the wall member that receives the transfer conduit. 14. The energy storage module according to claim 1 wherein the energy storage enclosure provides thermal isolation for the energy storage cell. 15. The energy storage module according to claim 1 wherein the channels are configured to receive a liquid coolant. 16. The energy storage module according to claim 1 wherein the channels are configured to receive air. 17. An energy storage module comprising: a U-shaped energy storage enclosure made from a foam material and including three wall members forming the U-shape, each wall member extending in a longitudinal direction; first and second side plates at opposite ends of the energy storage enclosure, wherein the side plates are not made of a foam material; a storage unit arranged in the energy storage enclosure such that the storage unit is in contact with the energy storage enclosure, the storage unit comprising an energy storage cell arranged adjacent to and stacked with a cooling plate in the longitudinal direction, the cooling plate being in thermal contact with the energy storage cell and having a channel for providing cooling to the energy storage cell; and a compressing element configured to apply a force on the three wall members and the storage unit in the longitudinal direction, wherein the compressing element is cooperable with the side plates to apply the force; wherein the three wall members are resilient in the longitudinal direction, such that when a force is applied in the longitudinal direction on the three wall members and the storage unit by the compressing element, the three wall members are compressible, and a contact pressure between the cooling plate and the energy storage cell is limited by the three wall members. 18. The energy storage module according to claim 17 wherein the energy storage enclosure provides thermal isolation for the energy storage cell. 19. The energy storage module according to claim 17 wherein the channel is configured to receive a liquid coolant.