Counterflow heat exchanger with side entry fittings

What is claimed is: 1. A battery cell heat exchanger comprising: a pair of plates comprising a first plate and a second plate coupled at edges of the pair of plates, the pair of plates together defining a fluid passage having a first channel permitting fluid flow from a first end of the pair of plates towards a second end of the pair of plates, and a second channel permitting fluid flow from the second end towards the first end of the pair of plates; and an inlet or outlet at the first end of the pair of plates, the inlet or outlet being in fluid communication with the first channel; the second plate having an aperture through the second plate permitting fluid flow from the second channel to a conduit or duct on a side of the second plate opposite the fluid passage; the other of the inlet or outlet in fluid communication with the conduit or duct; the inlet and the outlet positioned in a plane defined by the pair of plates; the first plate having a first plate first indentation and a first plate second indentation, the first plate first indentation extending from the first end of the first plate to a central planar portion; and the second plate having a first slit and a second slit, the edges of the second plate defining the first slit aligning with the edges of the first plate first indentation to define one of the inlet or outlet, and the edges of the second plate defining the second slit aligning with the edges of the first plate second indentation to define the other of the inlet or outlet. 2. The battery cell heat exchanger according to claim 1 , further comprising: a third plate having the conduit or duct formed therein, the third plate and the first plate together sandwiching the second plate, the third plate having a third plate first indentation and a third plate second indentation, the third plate second indentation being in fluid communication with the conduit or duct; wherein the first plate first indentation and the third plate first indentation together define one of the inlet or outlet, and the first plate second indentation and the third plate second indentation together define the other of the inlet or outlet. 3. The battery cell heat exchanger according to claim 2 , wherein edges of third plate first indentation align with edges of the first plate first indentation, and the first plate second indentation being formed in a flange of the first plate. 4. The battery cell heat exchanger according to claim 1 , further comprising: a fourth plate having holes to permit fluid flow from the second channel to the conduit or duct, the fourth plate coupled to the first plate on one side and to a third plate on an opposing side, the fourth plate having a fourth plate flange extending towards the first end of the heat exchanger, the fourth plate flange having a fourth plate indentation, and the third plate having the conduit or duct, the conduit or duct having a planar surface, the third plate having a third plate flange extending towards the first end of the heat exchanger, a third plate flange having a third plate indentation, wherein the fourth plate indentation and the third plate indentation together define one of the inlet or outlet and are in fluid communication with the conduit or duct, and the second plate having apertures aligned with holes in the fourth plate to permit fluid flow from the second channel to the conduit. 5. The battery cell heat exchanger according to claim 4 , wherein the fourth plate flange has a step and the third plate flange has a step that complements the step on the fourth plate flange for positioning the inlet or outlet defined together by the fourth plate first indentation and the third plate first indentation to be in a same plane as the other inlet or outlet defined together by the first plate and the second plate. 6. The battery cell heat exchanger according to claim 1 , further comprising a duct system on the opposite side of the second plate from the fluid passage, the duct system having a flat longitudinal planar surface coupled to a first semi-circular elongated shell to define the conduit or duct, and the flat longitudinal planar surface having orifices aligned with apertures in the second plate to permit fluid flow from the second channel to the conduit or duct. 7. The battery cell heat exchanger according to claim 6 having a first duct system portion and a second duct system portion, the first duct system portion having the flat longitudinal planar surface with the orifices, the second duct system portion coupled to and extending perpendicularly from the first duct system portion, the second duct system portion in fluid communication with the conduit or duct and providing a passage for fluid to flow from the conduit or duct to the inlet or outlet, and wherein the inlet is positioned parallel to the outlet. 8. The battery cell heat exchanger according to claim 7 , wherein the second duct system portion comprises a flange longitudinally coupled to a second semi-circular elongated shell, the flange at one end coupled to and extending from a flat planar surface of the first duct system portion, and an opposing end having an indentation formed on the flange in the second duct system portion, and the second semi-circular elongated shell coupled at one end to the first semi-circular elongated shell, wherein the indentation formed on the flange in the second duct system portion and the second semi-circular elongated shell together define the inlet or outlet. 9. The battery cell heat exchanger according to claim 1 , having a first duct system portion and a second duct system portion, the first duct system portion having orifices aligned with apertures in the second plate to permit fluid flow from the second channel to the conduit or duct, the second duct system portion coupled to and axially extending from the first duct system portion, the second duct system portion in fluid communication with the conduit or duct and providing a passage for fluid to flow from the conduit or duct to the inlet or outlet, and wherein the inlet is positioned perpendicular to the outlet in the heat exchanger. 10. A battery cell heat exchanger, comprising: a first plate and a second plate defining a fluid passage between the first and second plates, and the fluid passage comprising a first channel and a second channel, the first channel and the second channel permitting fluid flow in opposite directions, a first inlet or outlet positioned at a first end of the pair of plates, and the inlet or outlet being in fluid communication with the first channel, an aperture in the first plate permitting fluid flow from the second channel to a conduit or duct, and a third plate having the conduit or duct formed therein, the third plate and the second plate together sandwiching the first plate, the third plate forming a second inlet or outlet, and the third plate having a third plate first indentation and a third plate second indentation, the third plate second indentation being in fluid communication with the conduit or duct, the first plate has a first slit at the first end of the heat exchanger and extending to a first manifold portion, and a second slit at the first end of the heat exchanger, and the edges of the first plate defining the first slit align with the longitudinal edges of the second plate first indentation, and the edges of the first plate defining the second slit align with longitudinal edges of the second plate second indentation. 11. The battery cell heat exchanger according to claim 10 , further comprising the second plate having a second plate duct or groove formed in the second plate, a second plate first indentation and a second plate second indentati