Pulp production arrangement and method

The invention claimed is: 1. A dewatering roll, comprising a roll body; a mantle support structure having an outer surface, a pair of axial ends, a central portion, a plurality of support ribs, and ring elements attached to said plurality of support ribs attached, in a radial direction, around said roll body; and a mantle having an outer surface and an inner surface, attached, in said radial direction, against said outer surface of said mantle support structure; said mantle having a plurality of through holes constituting mantle flow paths from, in said radial direction, said outer surface of said mantle to, in said radial direction, said inner surface of said mantle; said mantle support structure presenting support flow paths from said outer surface of said mantle support structure, said support flow paths being in fluid contact with said mantle flow paths; said outer surface of said mantle support structure having a static geometric shape defining an envelope having a smaller radius in vicinity of each one of said axial ends of said mantle support structure than in vicinity of said central portion of said mantle support structure, whereby said inner surface of said mantle assumes the shape of said envelope. 2. The dewatering roll according to claim 1 , wherein said envelope is given a shape compensating for deflection and deformation of said dewatering roll at a pre-defined operation load. 3. The dewatering roll according to claim 2 , wherein said envelope is given a shape having a radius in said central portion, in an axial direction, that is at least 0.5 mm larger than a radius close to at least one of said axial ends of said mantle support structure. 4. The dewatering roll according to claim 1 , wherein a radius of said envelope changes continuously over a major part of the distance from said central portion of said mantle support structure towards each of said axial ends of said mantle support structure. 5. The dewatering roll according to claim 4 , wherein a radius of said envelope changes continuously from said central portion of said mantle support structure towards each of said axial ends of said mantle support structure. 6. The dewatering roll according to claim 1 , wherein said radius of said envelope varies stepwise linearly in said axial direction. 7. The dewatering roll according to claim 6 , wherein said radius of said envelope decreases stepwise linearly in said axial direction from said central portion of said mantle support structure towards each of said axial ends of said mantle support structure. 8. The dewatering roll according to claim 1 , wherein said radius of said envelope is stepwise constant in said axial direction. 9. The dewatering roll according to claim 1 , wherein said mantle has an essentially uniform thickness in said radial direction. 10. A dewatering press comprising at least one dewatering roll according to claim 1 . 11. The dewatering press according to claim 10 , wherein the dewatering press comprises two dewatering rolls according to claim 1 , arranged side by side parallel to each other. 12. A method for producing a dewatering roll, comprising the steps of: providing a mantle support structure with support flow paths from, in a radial direction, an outer surface of said mantle support structure; wherein the mantle support structure includes a pair of axial ends, a central portion, a plurality of support ribs, and ring elements attached to said plurality of support ribs; attaching said mantle support structure around a roll body; providing a mantle with a plurality of through holes constituting mantle flow paths from, in said radial direction, an outer surface of said mantle to, in said radial direction, an inner surface of said mantle; forming said outer surface of said mantle support structure to obtain a static geometric shape defining an envelope having a smaller radius in the vicinity of each axial end of said mantle support structure than in the vicinity of the center of said mantle support structure; and fitting, after said step of forming, said mantle against said outer surface of said mantle support structure; whereby said support flow paths is brought in fluid contact with said mantle flow paths. 13. The method according to claim 12 , wherein said step of fitting said mantle against said outer surface of said mantle support structure is performed by shrink-fitting whereby said inner surface of said mantle assumes the shape of said envelope by said shrink-fitting. 14. The method according to claim 12 , wherein said step of providing a mantle comprises shaping said mantle so that its inner surface assumes the shape of said envelope.