Energy storage

What is claimed is: 1. An energy storage apparatus comprising: a housing; a plurality of battery cells arranged in the housing; a temperature-control system arranged in the housing and with a liquid temperature-control medium which flows therethrough to cool and/or heat the battery cells; an absorbent element arranged between the battery cells and the housing in a first direction such that any temperature-control medium which flows out of the temperature-control system is absorbed by the absorbent element; and an electrically insulating layer which is impermeable to the temperature-control medium and arranged spatially between the absorbent element and at least a portion of the temperature-control system in the first direction and between the absorbent element and the battery cells in the first direction, wherein a first distance between the battery cells and the absorbent element is greater than a second distance between the battery cells and the temperature-control system. 2. The energy storage apparatus of claim 1 , wherein the absorbent element comprises a bulk material. 3. The energy storage apparatus of claim 1 , further comprising a retaining layer which is permeable to the temperature-control medium and arranged between the absorbent element and the insulating layer. 4. The energy storage apparatus of claim 1 , wherein the absorbent element is arranged on at least two different sides of the housing. 5. The energy storage apparatus of claim 1 , further comprising an inlet and an outlet which permit flow of the liquid temperature-control medium into and out of the temperature-control system. 6. The energy storage apparatus of claim 1 , wherein the temperature-control system is located beneath and perpendicular with respect to the battery cells, and also parallel with respect to the electrically insulating layer and the absorbent element. 7. The energy storage apparatus of claim 1 , wherein the temperature-control system is located laterally beside and in parallel with respect to the battery cells, and also perpendicular with respect to the electrically insulating layer and the absorbent element. 8. An energy storage apparatus comprising: a housing having a plurality of ribs which are spaced apart to define a gap; a plurality of battery cells arranged in the housing; a temperature-control system arranged in the housing to cool and/or heat the battery cells; a liquid temperature-control medium which flows through the temperature-control system; an absorbent element arranged in the gap such that any temperature-control medium which flows out of the temperature-control system is absorbed by the absorbent element; and an electrically insulating layer which is impermeable to the temperature-control medium and arranged spatially between the absorbent element the battery cells. 9. The energy storage apparatus of claim 8 , wherein the absorbent element comprises a bulk material. 10. The energy storage apparatus of claim 8 , wherein the absorbent element is arranged on at least two different sides of the housing. 11. The energy storage apparatus of claim 8 , further comprising an inlet and an outlet which permit flow of the liquid temperature-control medium into and out of the temperature-control system. 12. The energy storage apparatus of claim 8 , wherein the temperature-control system is located beneath and perpendicular with respect to the battery cells, and also parallel with respect to the electrically insulating layer and the absorbent element. 13. The energy storage apparatus of claim 8 , wherein the temperature-control system is located laterally beside and in parallel with respect to the battery cells, and also perpendicular with respect to the electrically insulating layer and the absorbent element. 14. An energy storage apparatus comprising: a housing; a plurality of battery cells arranged in the housing; a temperature-control system arranged in the housing and under the battery cells in a first direction to cool and/or heat the battery cells; a liquid temperature-control medium which flows through the temperature-control system; a first absorbent element arranged at a first region of the housing under the battery cells in the first direction to absorb any temperature-control medium which flows out of the temperature-control system; a first electrically insulating layer which is impermeable to the temperature-control medium and arranged at the first region of the housing spatially between the first absorbent element and at least a portion of the temperature-control system; a second absorbent element arranged at a second region of the housing over the battery cells in the first direction to absorb any temperature-control medium which flows out of the temperature-control system; and a second electrically insulating layer which is impermeable to the temperature-control medium and arranged at the second region of the housing spatially between the second absorbent element and the battery cells. 15. The energy storage apparatus of claim 14 , wherein the first and second absorbent elements comprise a bulk material. 16. The energy storage apparatus of claim 14 , further comprising an inlet and an outlet which permit flow of the liquid temperature-control medium into and out of the temperature-control system. 17. The energy storage apparatus of claim 14 , wherein the temperature-control system is located beneath and perpendicular with respect to the battery cells, and also parallel with respect to one of the first and second electrically insulating layers and the corresponding one of the first and second absorbent elements. 18. The energy storage apparatus of claim 14 , wherein the temperature-control system is located laterally beside and in parallel with respect to the battery cells, and also perpendicular with respect to one of the first and second electrically insulating layers and the corresponding one of the first and second absorbent elements. 19. The energy storage apparatus of claim 14 , wherein the first region and the second region are located at mutually opposed sides of the battery cells. 20. The energy storage apparatus of claim 1 , wherein the temperature-control system is sealed in the housing.