Plate for heat exchange arrangement and heat exchange arrangement

The invention claimed is: 1. A plate for a heat exchange arrangement for the exchange of heat between a first and a second medium, comprising: a first heat transferring surface arranged in use to be in contact with the first medium and a second heat transferring surface arranged in use to be in contact with the second medium; an inlet porthole for the first medium at a first end of the first heat transferring surface; an inlet porthole for the second medium; and an outlet porthole for the first medium at a second end of the first heat transferring surface, the first end spaced from the second end in a first direction, wherein the first heat transferring surface comprises at least one ridge arranged to divide said first heat transferring surface into at least a first region in direct thermal contact with the inlet porthole for the second medium, and a second region not in direct thermal contact with the inlet porthole for the second medium, and wherein the inlet porthole for the first medium is arranged in said first region, wherein the outlet porthole for the first medium is arranged in the second region, wherein the first region has an outlet, wherein a transfer channel conveys the first medium from the first region to the second region, the transfer channel having an inlet connected to and extending from the outlet of the first region in the first direction toward the inlet porthole for the first medium. 2. The plate for a heat exchange arrangement according to claim 1 , wherein the inlet porthole for the second medium is surrounded by the first region. 3. The plate for a heat exchange arrangement according to claim 1 , wherein the first region and the second region are separated by and share one and the same part of said at least one ridge, and wherein a general flow direction of the first medium through the first and second regions on either side of said part of the at least one ridge, respectively, are substantially parallel. 4. The plate for a heat exchange arrangement according to claim 3 , wherein the transfer channel is arranged to convey the first medium, between the first region and the second region, in a direction generally opposite to the parallel general flow direction. 5. The plate for a heat exchange arrangement according to claim 1 , wherein a length of the transfer channel in a flow direction through the transfer channel is greater than a width of the transfer channel, the width of the transfer channel being perpendicular to the flow direction through the transfer channel. 6. The plate for a heat exchange arrangement according to claim 1 , wherein the inlet of the transfer channel, at the first region, is arranged closer to the inlet porthole for the second medium than an outlet of the transfer channel, at the second region. 7. The plate for a heat exchange arrangement according to claim 1 , wherein the inlet porthole for the second medium is located between the inlet porthole for the first medium and the inlet of said transfer channel, at the first region, and wherein the at least one ridge is configured to define a restriction between the inlet porthole for the first medium and the inlet porthole for the second medium. 8. The plate for a heat exchange arrangement according to claim 1 , wherein the plate is shaped substantially as a parallelogram, and wherein the inlet porthole for the second medium and the inlet of the transfer channel are located in close proximity to one edge of the plate, and the inlet porthole for the first medium is located in close proximity to the opposite edge of the plate. 9. The plate for a heat exchange arrangement according to claim 8 , wherein the transfer channel inlet and the inlet porthole for the first medium are located in close proximity to a line running from a center point of said one edge to a center point of said opposite edge respectively, of the plate. 10. The plate for a heat exchange arrangement according to claim 8 , wherein the outlet porthole for the first medium and an outlet of the transfer channel are located substantially diagonally opposite each other in close proximity to said one edge and said opposite edge, respectively, of the plate. 11. The plate for a heat exchange arrangement according to claim 1 , wherein the first region and the second region on the first heat transferring surface of the plate are configured with broken longitudinal protrusions for controlling the flow of the first medium. 12. The plate for a heat exchange arrangement according to claim 1 , wherein a periphery of the inlet porthole for the second medium is folded at an angle of more than 75 degrees with respect to the first heat transferring surface of the plate. 13. The plate for a heat exchange arrangement according to claim 12 , wherein a height of the fold is less than twice a height of elevations formed by dimples. 14. The plate for a heat exchange arrangement according to claim 1 , wherein the second region is formed as a downstream part of the transfer channel. 15. The plate for a heat exchange arrangement according to claim 1 , wherein the transfer channel has a first section extending away from the outlet porthole for the first medium. 16. The plate for a heat exchange arrangement according to claim 1 , wherein the outlet of the first region is between the outlet for the first medium and an outlet of the transfer channel in the first direction.