Liquid processing mixer

The invention claimed is: 1. A mixing unit for mixing a flow of liquid product, comprising: a stator forming a hollow sleeve, and a rotor having a circular displacement plate with two opposite sides, wherein at least one side has at least two chambers formed by a plurality of vanes extending in a direction parallel with a longitudinal axis of the stator, wherein the rotor is arranged within the stator for rotating liquid product in said chambers relative the stator, wherein the displacement plate is tilted relative a longitudinal axis of the stator such that a normal direction of the displacement plate is angled relative to the longitudinal axis of the stator so that said at least two chambers have different volumes, the displacement plate being slidable relative to the vanes along the direction of the longitudinal axis such that a volume of each of the at least two chambers changes upon rotation of the rotor, and a side wall of the stator has at least one exit area comprising at least one through hole for allowing liquid product to exit the stator. 2. The mixing unit according to claim 1 , further comprising an electrical motor, wherein a rotational axis of the motor is connected to the rotor of the mixing unit. 3. The mixing unit according to claim 1 , wherein the plurality of vanes forms a vane assembly such that each vane extends radially outwards from a centre portion of the displacement plate, such that the outer edges of the vane assembly are arranged adjacent to an inner surface of the stator for forming the chambers. 4. The mixing unit according to claim 3 , wherein a single vane assembly forms the chambers on both sides of the displacement plate. 5. The mixing unit according to claim 1 , wherein the volume of one of said at least two chambers increases during rotation of the rotor and the volume of an other one of said at least two chambers decreases during rotation of the rotor, and said at least one exit area is arranged at a circumferential position corresponding to a position where said other one of said at least two chambers has a decreased volume. 6. The mixing unit according to claim 1 , wherein each one of said opposite sides of the displacement plate has at least two chambers formed by a plurality of vanes. 7. The mixing unit according to claim 6 , further comprising an additional inlet for allowing liquid product to enter at least one of said chambers on an opposite side of the displacement plate. 8. The mixing unit according to claim 6 , further comprising a first inlet for allowing liquid product to enter at least one of said chambers, a second inlet for allowing liquid product exiting the at least one chamber to enter at least one of the chambers on an opposite side of the displacement plate, and an outlet for allowing liquid product to exit said mixing unit. 9. The mixing unit according to claim 1 , further comprising an inlet for allowing liquid product to enter at least one of said chambers, and an outlet for allowing liquid product to exit said mixing unit, wherein said inlet is arranged at a circumferential position corresponding to a position where the chambers have an increasing volume. 10. The mixing unit according to claim 1 , wherein both sides of the circular displacement plate includes a plurality of the separated chambers and a plurality of the vanes, the chambers on each side of the circular displacement plate being defined by circumferentially adjacent ones of the vanes and the inner surface of the side wall of the stator.