Dimple pattern gasketed heat exchanger

What is claimed is: 1. A gasketed heat exchanger comprising: a plurality of heat exchanger plates, wherein each of the heat exchanger plates comprises a plurality of dimples, the plurality of dimples comprising top dimples extending from a first direction of a plane of the heat exchanger plate and bottom dimples extending from a second direction of the plane of the heat exchanger plate that is opposite the first direction, each top dimple comprising a fiat top surface parallel to the plane of the heat exchanger plate at an end of the top dimple distal from the plane of the heat exchanger plate, and each bottom dimple comprising a flat bottom surface parallel to the plane of the heat exchanger plate at an end of the bottom dimple, distal from the plane of the heat exchanger plate, wherein the top dimples of at least one of the heat exchanger plates are connected to the bottom dimples of another neighboring heat exchanger plate, wherein the plurality of dimples are formed of a material configured to be elastically deformable, wherein the top and bottom dimples are elastically deformable in a direction perpendicular to the plane of the heat exchanger plates, wherein the plurality of dimples comprise flanks that are elastically deformed resulting in spring forces acting against external forces, and wherein there are no flat surfaces in the plane of the heat exchanger plate between immediately adjacent dimples, and top and bottom plates, wherein the plurality of heat exchanger plates are arranged between the top and bottom plates, wherein the heat exchanger plates are configured to be held together under a pre-tension by the top and bottom plates, and wherein the flanks are configured to be elastically deformed by the pre-tension of the top and bottom plates without plastic deformation of the flanks so that the elastic deformation is reversible. 2. The gasketed heat exchanger according to claim 1 , wherein at least part of the top dimples are arranged in first rows and at least part of the bottom dimples are arranged in second rows. 3. The gasketed heat exchanger according to claim 2 , wherein the first rows of dimples with top surfaces alternate with the second rows of dimples with bottom surfaces; and wherein the heat exchanger plate has an elliptical shape between immediately adjacent top surfaces in the first rows of dimples with top surfaces and has an elliptical shape between immediately adjacent bottom surfaces in the second rows of dimples with bottom surfaces. 4. The gasketed heat exchanger according to claim 2 , wherein at least part of the first and second rows are arranged parallel to an edge of the heat exchanger plate. 5. The gasketed heat exchanger according to claim 4 , wherein at least part of the first and second rows are arranged at an angle to an edge of the heat exchanger plate. 6. The gasketed heat exchanger according to claim 4 , wherein at least part of the first and second rows form wedges in the plane of the heat exchanger plate. 7. The gasketed heat exchanger according to claim 2 , wherein at least part of the first and second rows are arranged at an angle to an edge of the heat exchanger plate. 8. The gasketed heat exchanger according to claim 2 , wherein at least part of the first and second rows form wedges in the plane of the heat exchanger plate. 9. The gasketed heat exchanger according to claim 1 , wherein the flat top surface of a top dimple meets the flat bottom surface of a bottom dimple when heat exchanger plates are connected. 10. The gasketed heat exchanger according to claim 9 , wherein the plurality of dimples are of a same shape. 11. A gasketed heat exchanger comprising: a plurality of heat exchanger plates, each heat exchanger plate of the plurality of heat exchanger plates comprising: a plurality of elastically deformable dimples extending away from a plane of the heat exchanger plate, each elastically deformable dimple of the plurality of dimples being formed of a material configured to be elastically deformable and including: a flat top or bottom surface parallel to the plane of the heat exchanger plate, the top or bottom surface being elastically deformable in a direction perpendicular to the plane of the heat exchanger plate; and a flank extending from the plane of the heat exchanger plate to the top or bottom surface, the flank configured to be deformed resulting in spring forces acting against external forces; wherein the plane of the heat exchanger plate does not include flat surfaces in the plane between immediately adjacent dimples of the plurality of dimples; wherein top surfaces of the plurality of elastically deformable dimples of at least one of the heat exchanger plates are connected to bottom surfaces of the plurality of elastically deformable dimples of another neighboring heat exchanger plate, wherein the plurality of heat exchanger plates are configured to be held together under a pre-tension by top and bottom plates, and wherein the flanks are configured to be elastically deformed by the pre-tension of the top and bottom plates without plastic deformation of the flank so that the elastic deformation is reversible. 12. The gasketed heat exchanger according to claim 11 , wherein, in at least a first direction, the top surfaces of the plurality of dimples are arranged in rows and the bottom surfaces of the plurality of dimples are arranged in rows, the rows of top surfaces alternating with the rows of bottom surfaces; and wherein the heat exchanger plate has an elliptical shape between immediately adjacent top surfaces in the rows of top surfaces and has an elliptical shape between immediately adjacent bottom surfaces in the rows bottom surfaces. 13. A gasketed heat exchanger comprising: a top plate; a bottom plate; a plurality of heat exchanger plates arranged between the top plate and the bottom plate, each heat exchanger plate of the plurality of heat exchanger plates comprising: a plurality of dimples comprising top dimples extending from a plane of the heat exchanger plate in a first direction and bottom dimples extending from the plane of the heat exchanger plate in a second direction that is opposite the first direction, each top dimple comprising a flat top surface parallel to the plane of the heat exchanger plate and each bottom dimple comprising a fiat bottom surface parallel to the plane of the heat exchanger plate, each top dimple and each bottom dimple including a flank extending from the plane of the heat exchanger plate to the flat top or the flat bottom surface; wherein, in at least a first direction, the top dimples are arranged in rows and the bottom dimples are arranged in rows, the rows of top dimples alternating with the rows of bottom dimples; wherein there are no straight surfaces in the plane of the heat exchanger plate between the top surfaces of immediately adjacent top dimples in the rows of top dimples; wherein there are no straight surfaces in the plane of the heat exchanger plate between the bottom surfaces of immediately adjacent bottom dimples in the rows of bottom dimples; and wherein the top surfaces of the top dimples of at least one heat exchanger plate of the plurality of heat exchanger plates are connected to the bottom surfaces of the bottom dimples of another neighboring heat exchanger plate of the plurality of heat exchanger plates, wherein the plurality of heat exchanger plates are configured to be held together under a pre-tension by the top plate and the bottom plate, and wherein the flanks are configured to be elastically deformed by the pre-tension of the top and bottom plates, without plastic deformation of the flanks so that the