Battery system and method of assembling the battery system

What is claimed is: 1. A battery system, comprising: a thermally conductive base member having a housing and a thermally conductive base layer, the thermally conductive base layer being coupled to a top surface of the housing; a thermal transfer member having a metal plate with a top portion and a bottom portion, the bottom portion of the metal plate being disposed on the thermally conductive base layer, the top portion of the metal plate having a first substantially arcuate-shaped groove extending inwardly into the metal plate; a first thermally conductive adhesive portion being disposed in the first substantially arcuate-shaped groove of the metal plate; and a battery module having a first pouch-type battery cell, the first pouch-type battery cell having a first outer housing with a first end portion and a second end portion, the first end portion of the first outer housing of the first pouch-type battery cell being disposed directly on the first thermally conductive adhesive portion and being disposed directly above the first substantially arcuate-shaped groove of the metal plate such that the first thermally conductive adhesive portion fixedly couples the first end portion of the first outer housing of the first pouch-type battery cell to the metal plate. 2. The battery system of claim 1 , wherein: the top portion of the metal plate further includes second substantially arcuate-shaped groove extending inwardly into the metal plate, the second substantially arcuate-shaped groove extending substantially parallel to the first substantially arcuate-shaped groove; the battery system further having a second thermally conductive adhesive portion being disposed in the second substantially arcuate-shaped groove of the metal plate; and the battery module further having a second pouch-type battery cell, the second pouch-type battery cell having a second outer housing with a first end portion and a second end portion, the first end portion of the second outer housing of the second pouch-type battery cell being disposed on the second thermally conductive adhesive portion and being disposed directly above the second substantially arcuate-shaped groove of the metal plate such that the second thermally conductive adhesive portion fixedly couples the first end portion of the second outer housing of the second pouch-type battery cell to the metal plate. 3. The battery system of claim 2 , wherein a major surface of the first outer housing of the first pouch-type battery cell directly contacts a major surface of the second outer housing of the second pouch-type battery cell. 4. The battery system of claim 1 , wherein a width of the first substantially arcuate-shaped groove is substantially equal to a width of the first end portion of the first outer housing of the first pouch-type battery cell. 5. The battery system of claim 4 , wherein a depth of the first substantially arcuate-shaped groove is substantially equal to a height of the first end portion of the first outer housing of the first pouch-type battery cell. 6. The battery system of claim 1 , wherein the metal plate is an extruded aluminum plate. 7. The battery system of claim 1 , wherein the first thermally conductive adhesive portion is a silicon-based thermally conductive adhesive. 8. The battery system of claim 1 , wherein the first thermally conductive adhesive portion is an epoxy-based thermally conductive adhesive. 9. The battery system of claim 1 , wherein the first thermally conductive adhesive portion has a thermal conductivity in a range of 1.0-4.0 Watts per meter-Kelvin. 10. The battery system of claim 1 , wherein the battery module further includes a first plastic frame member disposed against the first outer housing of the first pouch-type battery cell; the first plastic frame member having a top wall, first and second side walls, and first and second coupling tabs; the top wall being coupled to and between a top end of the first side wall and a top end of the second side wall; the first and second side walls extending substantially parallel to one another in a first direction; the first coupling tab being coupled to a bottom end of the first side wall and extending outwardly in a second direction from the first side wall, the second direction being perpendicular to the first direction; the first coupling tab having a first aperture extending therethrough; and the second coupling tab being coupled to a bottom end of the second side wall and extending outwardly in a third direction from the second side wall, the third direction being perpendicular to the first direction and opposite to the second direction; the second coupling tab having a second aperture extending therethrough. 11. The battery system of claim 10 , wherein the thermal transfer member further includes first and second plastic coupling tabs coupled to and extending outwardly from first and second ends, respectively, of the metal plate; the first and second plastic coupling tabs having first and second apertures, respectively extending therethrough; the thermal transfer member being disposed against the battery module such that the first and second apertures of the first and second plastic coupling tabs, respectively, of the thermal transfer member are aligned with the first and second apertures, respectively, of the first and second coupling tabs, respectively, of the first plastic frame member. 12. The battery system of claim 11 , further comprising first and second bolts; the first bolt being disposed through the first aperture of the first plastic coupling tab of the thermal transfer member and the first aperture of the first coupling tab of the first plastic frame member to couple the thermal transfer member to the first plastic frame member of the battery module; and the second bolt being disposed through the second aperture of the second plastic coupling tab of the thermal transfer member and the second aperture of the second coupling tab of the first plastic frame member to couple the thermal transfer member to the second plastic frame member of the battery module. 13. The battery system of claim 1 , wherein the housing of the thermally conductive base member has an enclosed interior region, the thermally conductive base member further having an inlet port and an outlet port being coupled to the thermally conductive base member that fluidly communicates with the enclosed interior region. 14. A method for assembling a battery system, comprising: providing a thermally conductive base member, a thermal transfer member, a first thermally conductive adhesive portion, and a battery module; the thermal transfer member having a metal plate with a top portion and a bottom portion, the top portion of the metal plate having a first substantially arcuate-shaped groove extending inwardly into the metal plate; the battery module having a first pouch-type battery cell, the first pouch-type battery cell having a first outer housing with a first end portion and a second end portion; disposing the first thermally conductive adhesive portion in the first substantially arcuate-shaped groove of the metal plate, utilizing an adhesive dispensing device; positioning the battery module such that the first end portion of the first outer housing of the first pouch-type battery cell is disposed directly on the first thermally conductive adhesive portion and directly above the first substantially arcuate-shaped groove of the metal plate, utilizing a placement machine, such that the first thermally conductive adhesive portion couples the first end portion of the first outer housing of the first pouch-type battery cell to the metal pla