Heat exchanging plate and heat exchanger

The invention claimed is: 1. A plate for a heat exchanger, arranged to heat exchange a first medium in gas phase to a second medium, so that the first medium condenses into liquid form, the plate being associated with a main plane of extension and a main longitudinal direction and comprising: a first heat transfer surface, extending substantially in parallel to said main plane and arranged to be in contact with the first medium, flowing along the first surface in a first flow direction parallel to the main longitudinal direction; and a second heat transfer surface, extending substantially in parallel to said main plane and arranged to be in contact with the second medium, flowing along the second surface in a second flow direction parallel to the main longitudinal direction, wherein the first surface comprises protruding ridges defining at least two parallel and open-ended channels extending in the first flow direction, wherein the second surface comprises a plurality of protruding dimples arranged in said channels between neighbouring respective pairs of said ridges, wherein a height, perpendicular to the main plane, of said ridges and dimples respectively define a first flow height for the first medium and a second flow height for the second medium, and a first set of ridges having at least two of said ridges immediately adjacent one another, each of the at least two of said ridges having a first interruption in at least one location spaced a first distance from a first side of the first surface and transverse to said first flow direction, each of the at least two of said ridges of the first set having a first uninterrupted section extending from the first side of the first surface to the first interruption, and a second set of ridges having at least two of said ridges immediately adjacent one another, each of the at least two of said ridges having a second interruption in at least one location spaced a second distance from the first side of the first surface and transverse to said first flow direction, the second distance being different than the first distance, at least one of the at least two of said ridges of the second set having a first uninterrupted section extending from the first side of the first surface to the second interruption. 2. The plate according to claim 1 , wherein said protruding ridges define at least three parallel and open-ended channels extending in the first flow direction. 3. The plate according to claim 2 , wherein the plate is associated with a cross direction, perpendicular to the main longitudinal direction and parallel to the main plane, and wherein a curvature of at least one respective side wall of each of said ridges lacks variations in the main plane and said cross direction. 4. The plate according to claim 1 , wherein the plate is associated with a cross direction, perpendicular to the main longitudinal direction and parallel to the main plane, and wherein a curvature of at least one respective side wall of each of said ridges lacks variations in the main plane and in said cross direction. 5. The plate according to claim 1 , wherein the first interruptions of the first set of ridges interconnect a majority of said parallel channels being present in said at least one location along the first flow direction. 6. The plate according to claim 1 , wherein the plate comprises, in order along the main longitudinal direction, a first medium inlet region, a first medium transfer region and a first medium outlet region, and wherein the channels are arranged in the first medium transfer region. 7. The plate according to claim 6 , wherein the plate further comprises a second medium inlet region, overlapping, on the opposite surface of the plate, with the first medium outlet region and a second medium outlet region, overlapping, on the opposite surface of the plate, with the first medium inlet region; or a second medium outlet region, overlapping, on the opposite surface of the plate, with the first medium outlet region and a second medium inlet region, overlapping, on the opposite surface of the plate, with the first medium inlet region; and a second medium transfer region, overlapping, on the opposite surface of the plate, with the first medium transfer region. 8. The plate according to claim 6 , wherein the first medium inlet region comprises a pattern of protrusions arranged to distribute the first medium to respective inlets of at least two of said parallel channels. 9. The plate according to claim 1 , wherein the first flow direction is substantially parallel to the main longitudinal direction. 10. The plate according to claim 1 , wherein both the first and the second heat transfer surfaces comprise a respective plurality of additional protruding dimples, apart from the dimples arranged in said channels. 11. The plate according to claim 1 , wherein the second flow height is at least 5 times larger than the first flow height. 12. The plate according to claim 1 , wherein at least two neighbouring ridges are interrupted in at least one location along said first flow direction, defining a respective mixing zone for the first medium flowing through a corresponding neighbouring one of said channels. 13. The plate according to claim 1 , wherein the first flow direction and the second flow direction are substantially parallel to the main longitudinal direction. 14. The plate according to claim 1 , further comprising a pair of end plates spaced from each other in a direction perpendicular to the main plane, wherein the first heat transfer surface and the second heat transfer surface form a stack and the end plates are at a top and a bottom of the stack, respectively. 15. The plate according to claim 1 , further comprising a third set of ridges having at least two of said ridges immediately adjacent one another, the third set of ridges being between the first set of ridges and second set of ridges, each of the at least two of said ridges having a third interruption spaced the first distance from the first side of the first surface and transverse to said first flow direction and a fourth interruption spaced the second distance from the first side of the first surface. 16. A plate for a heat exchanger, arranged to heat exchange a first medium in gas phase to a second medium, so that the first medium condenses into liquid form, the plate being associated with a main plane of extension and a main longitudinal direction and comprising: a first heat transfer surface, extending substantially in parallel to said main plane and arranged to be in contact with the first medium, flowing along the first surface in a first flow direction parallel to the main longitudinal direction; and a second heat transfer surface, extending substantially in parallel to said main plane and arranged to be in contact with the second medium, flowing along the second surface in a second flow direction parallel to the main longitudinal direction, wherein the first surface comprises protruding ridges defining at least two parallel and open-ended channels extending in the first flow direction, wherein the second surface comprises a plurality of protruding dimples arranged in said channels between neighbouring respective pairs of said ridges, wherein a height, perpendicular to the main plane, of said ridges and dimples respectively define a first flow height for the first medium and a second flow height for the second medium, and a first set of ridges having at least three of said ridges immediately adjacent one another, each of the at least three of said ridges having a first interruption in at le