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, wherein: the plate has 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; the plate is configured with a first inlet porthole for the first medium and an inlet porthole for the second medium, and a first outlet porthole for the first medium; the plate comprises at least a second inlet porthole for the first medium and at least a second outlet porthole for the first medium, the first heat transferring surface is configured with at least one protrusion forming a continuous and closed ridge which divides said heat transfer surface into at least a closed inner region and an outer region outside the closed inner region; the inner region completely encloses the first inlet porthole for the first medium, the first outlet porthole for the first medium and the inlet porthole for the second medium; the second inlet porthole for the first medium and the second outlet porthole for the first medium are located in the outer region, the inlet porthole for the second medium is located between the first inlet porthole and the first outlet porthole for the first medium; and the protrusion is configured to define a restriction between the first inlet porthole for the first medium and the inlet porthole for the second medium, the restriction being defined by a narrowed part of the inner region that is more narrow that parts of the inner region immediately adjacent the restriction to guide flow of the first medium towards and around the inlet porthole for the second medium. 2. 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 first and second outlet portholes for the first medium are located in close proximity to one edge of the plate and the first and second inlet portholes for the first medium are located in close proximity to the opposite edge of the plate. 3. The plate for a heat exchange arrangement according to claim 2 , wherein: the first outlet porthole and the first inlet porthole for the first medium are located in close proximity to the centre portion of said one edge and said opposite edge respectively, of the plate. 4. The plate for a heat exchange arrangement according to claim 2 , wherein: the second outlet porthole and the second inlet porthole for the first medium are located substantially diagonally opposite each other in close proximity to said one edge and said opposite edge respectively, of the plate. 5. The plate for a heat exchange arrangement according to claim 1 , wherein: the inner region and the outer region on the first heat transferring surface of the plate are configured with broken longitudinal protrusions for controlling the flow of the first medium. 6. The plate for a heat exchange arrangement according to claim 1 , wherein: the first heat transferring surface of the plate is configured with at least two protrusions forming continuous and closed ridges which are arranged to divide said first heat transferring surface into the closed inner region, the outer region and at least one closed intermediate region between said inner and said outer region; and the inner region completely encloses the first inlet porthole for the first medium, the first outlet porthole for the first medium and the inlet porthole for the second medium, the outer region completely encloses the second inlet porthole for the first medium and the second outlet port-hole for the first medium and the at least one intermediate region completely encloses an additional inlet porthole for the first medium and an additional outlet porthole for the first medium. 7. The plate for a heat exchange arrangement according to claim 1 , wherein: the plate is configured with an outlet porthole for the second medium. 8. The plate for a heat exchange arrangement according to claim 1 , wherein: the 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. 9. The plate for a heat exchange arrangement according to claim 8 , wherein: the first heat transferring surface includes a plurality of spaced apart dimples each forming an elevation; and the length of the fold is less than twice the height of the elevations formed by the dimples. 10. A heat exchange arrangement for the exchange of heat between a first and a second medium, comprising: a plurality of first plates and a plurality of second plates, said second plates being mirror copies of said first plates; each of said first plates 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; a first inlet porthole for the first medium and an inlet porthole for the second medium, and a first outlet porthole for the first medium; a least a second inlet porthole for the first medium and at least a second outlet porthole for the first medium; the first heat transferring surface being configured with at least one protrusion forming a continuos and closed ridge which divides said heat transfer surface into at least a closed inner region and an outer region outside the closed inner region; the inner region completely enclosing the first inlet porthole for the first medium, the first outlet porthole for the first medium and the inlet porthole for the second medium; the second inlet porthole for the first medium and the second outlet porthole for the first medium being located in the outer region; the first and the second plates being alternately stacked to form a repetitive sequence of a first channel for the first medium and a second channel for the second medium; each first channel being defined by the first heat transferring surface of the first plate and the first heat transferring surface of the second plate and each second channel by the second heat transferring surface of the first plate and the second heat transferring surface of the second plate; the first and the second inlet portholes for the first medium on the first and the second plates defining between them first and second inlets respectively, for the first medium; the first and the second outlet portholes for the first medium on the first and the second plates defining between them first and second outlets respectively, for the first medium; the inlet portholes for the second medium on the first and the second plates defining between them inlets for the second medium; the protrusions on the first heat transferring surfaces of the first and the second plates being connected to each other to separate each first channel into at least first and second flow paths for the first medium; and each first flow path being configured in use to direct a flow of the first medium from the first inlet to the first outlet inside the inner region and each second flow path is configured in use to direct the flow of the first medium from the second inlet to the second outlet in the outer region. 11. The heat exchange arrangement according to claim 10 , wherein: the protrusions on the first heat transferring surfaces of the first and the second plates are connected to each other to separate each first channel into the first and second flow paths and into at least one inter-mediate flow path for the first medium between the first and second flow paths; and each inte