Hollow prismatic and cylindrical battery cells, method for manufacturing, and battery heat exchange system

What is claimed is: 1 . A battery system, comprising: N hollow battery cells, each including: an enclosure including a top surface, a bottom surface, and a side wall; a hollow center tube including a side wall and a cavity enclosed by the side wall, wherein the hollow center tube passes through at least one of the top surface and the bottom surface of the enclosure; and a roll including electrode and separator layers arranged between an outer surface of the hollow center tube and the enclosure; and a battery heat exchange system including a first fluid channel including N ports configured to at least one of supply fluid to and receive fluid from at least one end of the hollow center tube of the N hollow battery cells. 2 . The battery system of claim 1 , wherein: the enclosure has a cylindrical shape; and the hollow center tube has a circular cross section. 3 . The battery system of claim 2 , wherein the hollow center tube passes through the top surface and the bottom surface of the enclosure. 4 . The battery system of claim 3 , wherein the battery heat exchange system includes a second fluid channel configured to at least one of supply fluid to and receive fluid from an opposite end of the hollow center tube of the N hollow battery cells. 5 . The battery system of claim 1 , wherein at least one of the top surface and the bottom surface comprises a cap attached to the side wall of the enclosure and the hollow center tube. 6 . The battery system of claim 1 , wherein: the enclosure has a prismatic shape, and the hollow center tube has a rounded rectangular cross section. 7 . The battery system of claim 6 , wherein the hollow center tube passes through the top surface and the bottom surface of the enclosure. 8 . The battery system of claim 7 , wherein the battery heat exchange system includes a second fluid channel configured to at least one of supply fluid to and receive fluid from an opposite end of the hollow center tube of the N hollow battery cells. 9 . The battery system of claim 6 , wherein the first fluid channel includes a plurality of partitions to create a serpentine vertical path in the hollow center tube. 10 . The battery system of claim 6 , wherein the first fluid channel includes a plurality of partitions to create a serpentine horizontal path in the hollow center tube. 11 . The battery system of claim 2 , wherein: the N ports include N walls extending transverse to the first fluid channel and including threads on an outer surface thereof; and an inner surface of the side wall of the hollow center tube of the N hollow battery cells includes threads. 12 . The battery system of claim 1 , wherein the first fluid channel includes N partitions in the N ports, respectively. 13 . The battery system of claim 1 , wherein each of the N hollow battery cells include a partition arranged in the hollow center tube. 14 . The battery system of claim 1 , further comprising a second fluid channel arranged adjacent and in contact with the first fluid channel, wherein fluid flows in a first direction through the first fluid channel and in a second direction through the second fluid channel. 15 . The battery system of claim 3 , wherein the first fluid channel extends in a serpentine path upwardly and downwardly through the hollow center tubes of adjacent ones of the N hollow battery cells. 16 . The battery system of claim 2 , wherein: the N ports include N walls extending transverse to the first fluid channel; and the N walls are press fit into an inner surface of the side wall of the hollow center tube of the N hollow battery cells. 17 . A battery system, comprising: N hollow cylindrical battery cells, each including: an enclosure including a top surface, a bottom surface, and side walls; a hollow center tube including a side wall defining a cavity and having a circular cross section, wherein the hollow center tube passes through at least one of the top surface and the bottom surface of the enclosure; and a roll including electrode and separator layers arranged between an outer surface of the hollow center tube and the enclosure; and a battery heat exchange system including a first fluid channel including N ports configured to at least one of supply fluid to and receive fluid from at least one end of the hollow center tube of the N hollow cylindrical battery cells, wherein the N ports include N walls extending transverse to the first fluid channel, respectively; and wherein one of: the N walls include threads on an outer surface thereof and an inner surface of the side wall of the hollow center tube of the N hollow cylindrical battery cells is threaded; and the N walls are press fit into an inner surface of the side wall of the hollow center tube of the N hollow cylindrical battery cells. 18 . The battery system of claim 17 , wherein: the hollow center tube passes through the top surface and the bottom surface of the enclosure; and the battery heat exchange system includes a second fluid channel configured to at least one of supply fluid to and receive fluid from an opposite end of the hollow center tube of the N hollow cylindrical battery cells. 19 . The battery system of claim 17 , wherein one of: the first fluid channel includes N partitions in the N ports, respectively, and each of the N hollow cylindrical battery cells include a partition arranged in the hollow center tube. 20 . A method for manufacturing a hollow battery cell, comprising: double backwards extruding an enclosure for the hollow battery cell including a top surface, a side wall, a bottom surface, and a hollow center tube extending from the bottom surface and including a side wall and a cavity arranged between the side wall; winding a roll including electrode and separator layers; inserting the roll into the enclosure between the hollow center tube and the side wall of the enclosure; and attaching a top cap to the side wall and the hollow center tube on the top surface.