Battery having reduced condensate formation due to water separation

The invention claimed is: 1. A battery, comprising: a substantially air-tight casing defining a single, air-permeable aperture that opens into an interior space of the casing, the air-permeable aperture configured to bi-directionally equalize an air pressure within the interior space; a plurality of battery cells arranged in the interior space of the casing; and an active cooling device configured to cool the battery cells in the interior space of the casing, the cooling device including a coolant and a distributor block, wherein the distributor block defines (i) a coolant duct configured to distribute the coolant and (ii) an air duct configured and arranged to place the air-permeable aperture in contact with ambient air via the air duct, the ambient air disposed about an exterior space of the casing and the distributor block, and wherein the air duct has an air inlet at one end and an air outlet at the other end, the air duct connected to the air-permeable aperture at the air outlet, the air inlet opening to the ambient air. 2. The battery as claimed in claim 1 , wherein the air outlet of the distributor block is arranged directly on the air-permeable aperture in the casing. 3. The battery as claimed in claim 1 , wherein the air inlet, the air outlet and the air duct are arranged in the distributor block and configured such that, in normal operation of the battery, a height gradient exists along the air duct from the air outlet towards the air inlet, the air outlet positioned higher vertically than the air inlet. 4. The battery as claimed in claim 3 , wherein the height gradient along the air duct is continuous from the air outlet toward the air inlet. 5. The battery as claimed in claim 1 , wherein the air duct in the distributor block is configured such that air has to cover a distance from the air inlet to the air outlet which is at least twice as long as a shortest distance of the air inlet from the air outlet. 6. The battery as claimed in claim 1 , wherein the air duct includes a plurality of turns and has one of a loop-shaped configuration and a meandering configuration. 7. The battery as claimed in claim 1 , wherein the air duct is composed of a material having a thermal conductivity equal to or greater than 10 W/(m*K). 8. The battery as claimed in claim 1 , wherein the air duct is composed of a material which contains one of aluminum and an aluminum alloy. 9. The battery as claimed in claim 1 , wherein an inner surface of the air duct includes a feature configured to enlarge the inner surface, the feature being at least one of ribs, grooves, walls, vanes and webs. 10. The battery as claimed in claim 1 , wherein the air outlet includes a water impervious membrane configured to substantially prevent passage of liquid water from the distributor block into an interior of the casing through the air-permeable aperture in the casing. 11. The battery as claimed in claim 1 , wherein the coolant of the active cooling device is a liquid coolant. 12. A distributor block for use with a battery having a substantially air-tight casing that defines a single, air-permeable aperture, the air-permeable aperture opening into an interior space of the casing and being configured to bi-directionally equalize an air pressure within the interior space, the distributor block comprising: a coolant duct defined by the distributor block and configured to distribute a coolant; and an air duct defined by the distributor block and configured and arranged to place the air-permeable aperture in contact with ambient air disposed about an exterior space of the casing and the distributor block, the air duct having an air inlet at one end and an air outlet at the other end, the air duct connected to the air-permeable aperture at the air outlet, the air inlet opening to the ambient air. 13. A motor vehicle, comprising: a battery including: a substantially air-tight casing defining a single, air-permeable aperture that opens into an interior space of the casing, the air-permeable aperture configured to bi-directionally equalize an air pressure within the interior space; a plurality of battery cells arranged in the interior space of the casing; and an active cooling device configured to cool the battery cells in the interior space of the casing, the cooling device including a coolant and a distributor block, wherein the distributor block defines (i) a coolant duct configured to distribute the coolant and (ii) an air duct configured and arranged to place the air-permeable aperture in contact with ambient air via the air duct, the ambient air disposed about an exterior space of the casing and the distributor block, and wherein the air duct has an air inlet at one end and an air outlet at the other end, the air duct connected to the air-permeable aperture at the air outlet, the air inlet opening To the ambient air.