Plate heat exchanger, a heat exchanging plate and a method of treating a feed such as sea water

What is claimed is: 1 . A heat exchanging plate for a plate heat exchanger for treatment of a feed such as sea water according to a rising film technique, the plate heat exchanger including a plate package comprising a plurality of the heat exchanging plates arranged in a successive order, the plate package defining a heating volume for receiving a heating medium, a cooling volume for receiving a cooling medium and a plurality of process volumes, each of the volumes being fluidly separated from each other in the plate package, each of the process volumes including: an evaporation section having a bottom and arranged to permit evaporation of at least a part of the feed, a separation section being arranged to separate a non-evaporated part of the feed from an evaporated part of the feed, a condensation section being arranged to condense the evaporated part of the feed, and a feed inlet located at the bottom of the evaporation section and a non-evaporated feed outlet located below the separation section when the plate package is disposed in a normal position of use so that the feed entering the evaporation section by way of the feed inlet and evaporated in the evaporation section is evaporated feed that flows upward to the separation section as a part of the rising film technique, the heat exchanging plate having one side configured to face another of the heat exchanging plates in the plate package and an opposite side configured to face a further one of the heat exchanging plates in the plate package, the heat exchanging plate defining a first thermal interface between the heating volume and the evaporation section of a first process volume of the plurality of process volumes, a second thermal interface between the cooling volume and the condensation section of a second process volume of the plurality of process volumes, and at least one further thermal interface between an evaporation section and a condensation section of two adjacent process volumes. 2 . The heat exchanging plate according to claim 1 , further comprising a cooling medium inlet port and a cooling medium outlet port for the cooling medium, the cooling medium inlet port and the cooling medium outlet port passing through the heat exchanging plate, the cooling medium inlet port and the cooling medium outlet port being positioned, on the one side of the heat exchanging plate, in a part of the heat exchanger plate constituting the cooling volume. 3 . The heat exchanging plate according to claim 2 , further comprising: a cooling medium gasket portion positioned on the one side of the heat exchanger plate, the cooling medium gasket portion surrounding the cooling medium inlet port, the cooling medium outlet port and the part of the heat exchanger plate constituting the cooling volume, and separating the cooling medium inlet port, the cooling medium outlet port and the part of the heat exchanger plate constituting the cooling volume from a remainder of the one side of the heat exchanging plate; and a cooling medium port gasket portion: i) positioned on the opposite side of the heat exchanging plate; ii) completely surrounding the cooling medium outlet port and the cooling medium inlet port; iii) fluidly separating the cooling medium outlet port and the cooling medium inlet port from a remainder of the opposite side of the heat exchanging plate; and iv) fluidly separating the cooling medium outlet port from the cooling medium inlet port. 4 . The heat exchanging plate according to claim 1 , further comprising a heating medium inlet port and a heating medium outlet port for the heating medium, the heating medium inlet port and the heating medium outlet port passing through the heat exchanging plate, the heating medium inlet port and the heating medium outlet port being positioned, on the one side of the heat exchanging plate, in a part of the heat exchanger plate constituting the heating volume. 5 . The heat exchanging plate according to claim 4 , further comprising: a heating medium gasket portion positioned on the one side of the heat exchanger plate, the heating medium gasket portion surrounding the heating medium inlet port, the heating medium outlet port and the part of the heat exchanger plate constituting the heating volume, and separating the heating medium inlet port, the heating medium outlet port and the part of the heat exchanger plate constituting the heating volume from a remainder of the one side of the heat exchanging plate; and a heating medium port gasket portion: i) positioned on the opposite side of the heat exchanging plate; ii) completely surrounding the heating medium outlet port and the heating medium inlet port; iii) fluidly separating the heating medium outlet port and the heating medium inlet port from a remainder of the opposite side of the heat exchanging plate; and iv) fluidly separating the heating medium outlet port from the heating medium inlet port. 6 . A heat exchanging plate for a plate heat exchanger for treatment of a feed, the plate heat exchanger including a plate package comprising a plurality of the heat exchanging plates arranged in a successive order, the plate package defining a heating volume for receiving a heating medium, a cooling volume for receiving a cooling medium and a plurality of process volumes, each of the volumes being fluidly separated from each other in the plate package, each of the process volumes includes: an evaporation section being arranged to permit evaporation of at least a part of the feed, a separation section being arranged to separate a non-evaporated part of the feed from an evaporated part of the feed, and a condensation section being arranged to condense the evaporated part of the feed, the heat exchanging plate having one side configured to face another of the heat exchanging plates in the plate package and an opposite side configured to face a further one of the heat exchanging plates in the plate package, the heat exchanging plate defining a first thermal interface between the heating volume and the evaporation section of a first process volume of the plurality of process volumes, a second thermal interface between the cooling volume and the condensation section of a second process volume of the plurality of process volumes, and at least one further thermal interface between an evaporation section and a condensation section of two adjacent process volumes. 7 . The heat exchanging plate according to claim 6 , further comprising a cooling medium inlet port and a cooling medium outlet port for the cooling medium, the cooling medium inlet port and the cooling medium outlet port passing through the heat exchanging plate, the cooling medium inlet port and the cooling medium outlet port being positioned, on the one side of the heat exchanging plate, in a part of the heat exchanger plate constituting the cooling volume. 8 . The heat exchanging plate according to claim 7 , further comprising a cooling medium gasket portion positioned on the one side of the heat exchanger plate, the cooling medium gasket portion surrounding the cooling medium inlet port, the cooling medium outlet port and the part of the heat exchanger plate constituting the cooling volume, and separating the cooling medium inlet port, the cooling medium outlet port and the part of the heat exchanger plate constituting the cooling volume from a remainder of the one side of the heat exchanging plate. 9 . The heat exchanging plate according to claim 7 , further comprising a cooling medium port gasket portion: i) positioned on the opposite side of the heat exchanging plate; ii) completely surrounding the cooling medium outlet port and the cooling medium inlet port; iii) fluidly separating the cooling medium outlet port and the cooling med