Battery cell heat exchanger with graded heat transfer surface

What is claimed is: 1 . A battery cell heat exchanger comprising: a pair of mating heat exchange plates, the pair of mating heat exchange plates together forming an internal multi-pass tubular flow passage therebetween; the multi-pass tubular flow passage having an inlet end and an outlet end and a plurality of generally parallel flow passage portions interconnected by generally U-shaped flow passage portions, the generally parallel flow passage portions and generally U-shaped portions together interconnecting said inlet end and said outlet end; a fluid inlet in fluid communication with said inlet end of said flow passage for delivering a fluid to said heat exchanger; a fluid outlet in fluid communication with said outlet end of said flow passage for discharging said fluid from said heat exchanger; wherein each generally parallel flow passage portion defines a flow resistance and heat transfer performance characteristic, the flow resistance and heat transfer performance characteristic of each of said generally parallel flow passage portions increasing between the inlet end and the outlet end. 2 . A battery cell heat exchanger as claimed in claim 1 , wherein each generally parallel flow passage portion has a width, the width of each generally flow passage portion being the same and constant; and wherein each generally parallel flow passage portion defines a progressively increasing surface area density with respect to a subsequent generally parallel flow passage portion; wherein the progressively increasing surface area density is provided by one of the following alternatives: surface enhancement features in the form of various patterns of dimples, ribs and/or combinations thereof, or heat transfer surfaces having progressively increasing fin density. 3 . A battery cell heat exchanger as claimed in claim 1 , wherein each generally parallel flow passage portion has a width, the width of each of said generally parallel flow passage portions progressively decreasing from a first one of said generally parallel flow passage portions to a last one of said generally parallel flow passage portions. 4 . A battery cell heat exchanger as claimed in claim 3 , wherein each of said generally parallel flow passage portions having progressively decreasing widths are each formed with surface enhancement features arranged in patterns with progressively increasing surface area density from said first one of said generally parallel flow passage portions to said last one of said generally parallel flow passage portions; wherein said surface enhancement features are stamped into the surface of said heat exchanger plates. 5 . A battery cell heat exchanger as claimed in claim 3 , wherein said first one of said generally parallel flow passage portions is in the form of an open channel free of surface enhancement features; and wherein a heat transfer surface is arranged in each subsequent generally parallel flow passage portion, each heat transfer surface having a progressively increasing fin density. 6 . A battery cell heat exchanger as claimed in claim 5 , wherein each heat transfer surface is in the form of an offset strip fin of progressively increasing fin density. 7 . A battery cell heat exchanger as claimed in claim 1 , wherein the multi-pass tubular flow passage comprises a first generally parallel flow passage portion defining a first surface area density; a second generally parallel flow passage portion defining a second surface area density; a third generally parallel flow passage portion defining a third surface area density; and a fourth generally parallel flow passage defining a fourth surface area density; wherein said first surface area density is defined by a low density pattern of first protrusions formed in the surface portion of the heat exchanger plates forming said first generally parallel flow passage portion to provide a low overall surface area density; said second surface area density is defined by a high density pattern of said first protrusions formed in the surface portion of the heat exchanger plates forming said second generally parallel flow passage portion to provide a first medium overall surface area density; said third surface area density is defined by a low density pattern of second protrusions formed in the surface portion of the heat exchanger plates forming said third generally parallel flow passage portion to provide a second medium overall surface area density that is greater than said first medium surface area density; and said fourth surface area density is defined by a high density pattern of said first and second protrusions formed in the surface portion of said heat exchanger plates forming said fourth generally parallel flow passage portion to provide an overall high surface area density. 8 . A battery cell heat exchanger as claimed in claim 7 , wherein said first protrusions are dimples and said second protrusions are ribs. 9 . A battery cell heat exchanger as claimed in claim 7 , wherein: said first surface area density is defined by an open channel free of surface enhancement features or a heat transfer surface; and said second, third and fourth surface area densities are defined by heat transfer surfaces in the form of offset strip fins of progressively increasing fin density. 10 . A battery cell heat exchanger as claimed in claim 1 , wherein said multi-pass tubular flow passage comprises a minimum of three generally parallel flow passage portions and a maximum of ten generally parallel flow passage portions. 11 . A battery cell heat exchanger as claimed in claim 3 , wherein each generally parallel flow passage portion has a height, the height of each of said generally parallel flow passage portions progressively decreasing from a first one of said generally parallel flow passage portions to a last one of said generally parallel flow passage portions. 12 . A battery cell heat exchanger as claimed in claim 11 , wherein each of said generally parallel flow passage portions having progressively decreasing heights are each formed with surface enhancement features arranged in patterns with progressively increasing surface area density from said first one of said generally parallel flow passage portions to said last one of said generally parallel flow passage portions; wherein the progressively increasing surface area density is provided by one of the following alternatives: surface enhancement features in the form of various patterns of dimples, ribs and/or combinations thereof, or heat transfer surfaces having progressively increasing fin density. 13 . A battery unit comprising: a plurality of battery cell containers each housing one or more individual battery cells wherein the battery cell containers are arranged in adjacent, face-to-face contact with each other; a battery cell heat exchanger arranged underneath said plurality of battery cell containers such that an end face of each battery cell container is in surface-to-surface contact with said heat exchanger; wherein each battery cell heat exchanger comprises: a pair of mating heat exchange plates, the pair of mating heat exchange plates together forming a multi-pass tubular flow passage therebetween; the multi-pass tubular flow passage having an inlet end and an outlet end and a plurality of generally parallel flow passage portions interconnected by generally U-shaped flow passage portions, the generally parallel flow passage portions and generally U-shaped portions together interconnecting said inlet end and said outlet end; a fluid inlet in fluid communication with said inlet end of said flow passage for delivering a fluid to said heat exchanger; a f