Double plate heat exchanger

The invention claimed is: 1. A plate heat exchanger comprising a stack of plate elements each plate element being of a double wall construction comprising a first heat transfer plate and a second heat transfer plate each comprising a central heat exchanging portion provided with surface patterns adapted for contacting a first neighbouring plate element thereby forming a first flow path for a first fluid at the one side and adapted for contacting a second neighbouring plate element thereby forming a second flow path for a second fluid at the second side of the plate element, where the plate elements are formed with openings in opening areas, wherein the first heat transfer plate in an opening area is formed with a closed projection projecting transversely from the plane of the plate element in a first direction, and in the same opening area the second heat transfer plate is formed with an open projection projecting transversely from the plane of the plate element in a second direction being opposite to the first direction, such that the closed and open projections together defines a first leak cavity. 2. The plate heat exchanger according to claim 1 , where the open projection projects into a flow path associated with an opening and where the open projection is adapted to allow fluid to pass between the respective opening and the respective flow path when connected to open projections of a neighbouring plate element, and where the closed projection is adapted to close for fluid and seal the respective opening from the respective flow path. 3. The plate heat exchanger according to claim 1 , wherein a plural of open projections are positioned around the full circumference of the respective opening, and where a single closed projection circumferences the respective opening. 4. The plate heat exchanger according to claim 1 , wherein a first fixation and a second fixation are positioned at opposite sides of the relative opening fixing the first and second heat transfer plates of the plate element together. 5. The plate heat exchanger according to claim 1 , wherein the closed projection is connected to a drain channel formed to connect the closed projection fluidically to the outside of the heat exchanger. 6. The plate heat exchanger according to claim 5 , wherein the drain channel is formed as a projection formed in the same first direction as the projection. 7. The plate heat exchanger according to claim 1 , wherein a recess is formed in the closed projection, and where the recess projects at in a second direction being opposite to the closed projection and into the first leak cavity. 8. The plate heat exchanger according to claim 7 , wherein when the closed projection is connected to a closed projection of a heat transfer plate of a connected neighbouring plate element, the recess defines a second leak cavity. 9. The plate heat exchanger according to claim 7 , wherein the second leak cavity is positioned between respectively a third fixation and a fourth fixation of the heat transfer plate to a heat transfer plate of a neighbouring plate element. 10. The plate heat exchanger according to claim 7 , wherein an opening is formed in the shared plate wall of the closed projections and recess forming fluid communication between the first and second leak cavities. 11. A plate heat exchanger comprising a stack of plate elements each plate element being of a double wall construction comprising a first heat transfer plate and a second heat transfer plate each comprising a central heat exchanging portion provided with surface patterns adapted for a surface pattern of first heat transfer plate of one plate element to contact a surface pattern of a second heat transfer plate of a neighbouring plate element forming a first flow path for a first fluid at the one side and second flow path for a second fluid at the second side of a plate element, where the plate elements are formed with openings in opening areas, wherein a first heat transfer plate in an opening area is formed with a closed projection projecting in a first direction, and in the same opening area is formed with an open projection formed on a second direction being opposite to the first direction, such that the closed and open projections together defines a first leak cavity, where the open projection is adapted to allow fluid to pass between the respective opening and the respective flow path when connected to open projections of a neighbouring plate element, where the closed projection is adapted to close for fluid and seal the respective opening from the respective flow path, and wherein a plural of open projections are positioned around the full circumference of the respective opening, and where a single closed projection circumferences the respective opening.