Abstract: A heat exchanger plate having a planar plate having an inlet and outlet proximate to a first edge of the heat exchanger plate. The planar plate having a plurality of ribs and a plurality of channels, with the plurality of channels being in a plane different from the planar plate. The plurality of channels being in fluid communication from the inlet to the outlet permitting fluid flow from the inlet to the outlet. A protrusion coupled to the planar plate proximate to the first edge of the heat exchanger plate and laterally extending from an axis, with the heat exchanger plate being susceptible to bending about the axis.

Abstract: A heat exchanger plate having a planar plate having an inlet and outlet proximate to a first edge of the heat exchanger plate. The planar plate having a plurality of ribs and a plurality of channels, with the plurality of channels being in a plane different from the planar plate. The plurality of channels being in fluid communication from the inlet to the outlet permitting fluid flow from the inlet to the outlet. A protrusion coupled to the planar plate proximate to the first edge of the heat exchanger plate and laterally extending from an axis, with the heat exchanger plate being susceptible to bending about the axis.

Abstract: A heat exchanger made up of a plate pair defining a flow passage. The flow passage fluidly coupled to a fluid inlet at a first end and a fluid outlet at a second end for flow of fluid from the fluid inlet to the fluid outlet. The heat exchanger further contains a structural support element sandwiched between the plate pair. The structural support element has a first structural support element aperture and one or more channels extending from the first structural support element aperture to a peripheral edge of the structural support element, and wherein the structural support element is positioned circumferentially around the fluid inlet with the first structural support element aperture aligned with the fluid inlet, with the channels permitting flow of the fluid from the fluid inlet to the flow passage.

Abstract: A heat exchanger made up of a plate pair defining a flow passage. The flow passage fluidly coupled to a fluid inlet at a first end and a fluid outlet at a second end for flow of fluid from the fluid inlet to the fluid outlet. The heat exchanger further contains a structural support element sandwiched between the plate pair. The structural support element has a first structural support element aperture and one or more channels extending from the first structural support element aperture to a peripheral edge of the structural support element, and wherein the structural support element is positioned circumferentially around the fluid inlet with the first structural support element aperture aligned with the fluid inlet, with the channels permitting flow of the fluid from the fluid inlet to the flow passage.

Abstract: A battery cell heat exchanger formed by a pair of mating plates that together form an internal tubular flow passage. The tubular flow passage is generally in the form of a serpentine flow passage extending between an inlet end and an outlet end and having generally parallel flow passage portions interconnected by generally U-shaped flow passage portions. The flow passage provides a graded heat transfer surface within each generally parallel flow passage portion and/or a variable channel width associated with each flow passage portion to provide improved temperature uniformity across the surface of the heat exchanger. The graded heat transfer surface may be in the form of progressively increasing the surface area associated with the individual flow passage portions with heat transfer enhancement features or surfaces arranged within the flow passage portions. The channel width and/or height may also be varied so as to progressively decrease for each flow passage portion.