Pellet mill with an improved feed system and a method of forming pelleted material

The invention claimed is: 1. A pellet mill for forming pelleted material, comprising: a die having a cylindrical inner surface with a plurality of apertures formed therein and extending to the outside of the die, the volume bounded by said inner cylindrical surface defining a die chamber, at least two cylindrical rollers adapted to travel over said inner cylindrical surface of the die in a rolling motion, drive means for causing relative rotation of the die and the rollers, so that the rollers will travel over the inner cylindrical surface of the die, thereby forming wedge-shaped spaces between the rollers and the inner cylindrical surface of the die, a feed system, comprising at least two conduits, one associated with each of the at least two rollers, extending into the die chamber, said conduits having a circular cross section, and each comprising a screw conveyor having a shaft tapering in the direction of feed, each of the conduits further having a side opening for feeding the pelletizable material into the wedge- shaped spaces between the rollers and the inner cylindrical surface of the die, the side opening extending axially along the conduit and having an extension that is equal to the length of the rollers, characterized in that at least one of the conduits is configured for expelling the pelletizable material through its side opening in an upward direction directly to a wedge-shaped space, which is at a higher location in the die chamber than said conduit, and in that the screw conveyor comprises a first section comprising a helical screw and a second section comprising a plurality of curved expulsion blades having an increased curvature in the direction towards the helical screw and a length corresponding to the length of the side opening in the conduits. 2. A pellet mill according to claim 1 , comprising at least three rollers and at least three associated conduits. 3. A pellet mill according to claim 1 , further comprising means for angular adjustment of each of the conduits about its longitudinal axis, thereby adjusting the direction, in which the pelletizable material is expelled through the side opening. 4. A pellet mill according to claim 1 , further comprising drive means for driving the screw conveyors independently of each other. 5. A pellet mill according to claim 1 , further comprising drive means for dynamically adjusting the speed of each of the screw conveyors independently of each other, and in dependence of the measurement of at least one working condition of the pellet mill. 6. A pellet mill according to claim 1 , further comprising individual hopper means connected to each of the conduits, wherein each of the individual hopper means are connected to a dosing conveyor for feeding pelletizable material to each individual conduit. 7. A pellet mill according to claim 6 , wherein each of these dosing conveyors are operatively connected to control means for individually adjusting the fed of pelletizable material to each individual hopper means associated with each individual conduit in dependence of at least one working condition of the pellet mill. 8. A pellet mill according to claim 1 , wherein each of the rollers are mounted on a roller shaft having an eccentric stud. 9. A pellet mill according to claim 8 , wherein each of the roller shafts are operatively connected to positioning means for individually adjusting the distance between each roller and the cylindrical inner surface of the die dependent on the measurement of at least one working condition of the pellet mill. 10. A pellet mill according to claim 1 , wherein each of the rollers are mounted on a roller shaft, and wherein each of the roller shafts is operatively connected to positioning means for individually adjusting the distance between each roller and the cylindrical inner surface of the die dependent on the measurement of at least one working condition of the pellet mill. 11. A pellet mill according to claim 7 , wherein the at least one working condition of the pellet mill is the angular speed of rotation of a roller and/or the physical distance between a roller and the inner cylindrical surface of the die. 12. A pellet mill according to claim 9 , wherein the positioning means comprises hydraulic cylinder and piston means and wherein the distance between a roller and the inner cylindrical surface of the die is adjusted dependent on a measurement of the oil pressure of the hydraulic system associated with the hydraulic cylinder and piston means. 13. A method of forming pellets in a pellet mill having at least two cylindrical rollers and a cylindrical die chamber defined by a volume bounded by an inner cylindrical surface of a die, the inner cylindrical surface having a plurality of apertures formed therein that extend to an outside of the die, the method comprising: feeding pelletizable material into the cylindrical die chamber via at least two conduits that are correspondingly associated with each of the least two rollers within the die chamber, extend into the die chamber, and each have a circular cross section and a screw conveyor that is placed in the screw conveyer and has a shaft tapering in the direction of feed; relatively rotating the die and the at least two rollers to cause the at least two rollers to travel over the inner cylindrical surface of the die in a rolling motion, thereby forming wedge-shaped spaces between the rollers and the inner cylindrical surface of the die, whereby the peletizable material is forced through the plurality of apertures formed in the inner cylindrical surface of the die; expelling the pelletizable material directly into the wedge-shaped spaces between the rollers and the inner cylindrical surface of the die through a side opening in each of the at least two conduits that extends axially along the conduit and has an extension that is equal to a length of the rollers, and wherein at least one of the conduits expels the pelletizable material in an upward direction directly to a wedge-shaped space, which is at a higher location in the die chamber than said conduit, and wherein the screw conveyor comprises a first section comprising a helical screw and a second section comprising a plurality of curved expulsion blades having an increased curvature in the direction towards the helical screw and a length corresponding to the length of the side opening in the conduits thereby providing a uniform expulsion of said pelletizable material along the length of said side opening in the conduits. 14. The method according to claim 13 , wherein the at least two rollers and at least two associated conduits are exactly three rollers and exactly three associated conduits. 15. The method according to claim 13 , further comprising the step of adjusting the direction in which the pelletizable material is expelled through the side opening by angularly adjusting each of the conduits about its longitudinal axis. 16. The method according to claim 13 , further comprising the step of feeding the pelletizable material to each of the conduits via individual hopper means connected to each of the conduits. 17. The method according to claim 16 , further comprising the step of individually adjusting the feed of pelletizable material to each individual hopper means in dependence of at least one working condition of the pellet mill by dosing conveyors feeding the pelletizable material to each individual hopper means. 18. The method according to claim 13 , further comprising the step of providing each of the rollers with a roller shaft having an eccentric stud.