Multiphase flow mixing apparatus and method of mixing

The invention claimed is: 1. A subsea multiphase flow mixing apparatus for mixing a multiphase flow comprising at least a liquid phase and a gas phase, the apparatus comprising: at least one container which is configured to be disposed subsea and includes at least one inlet for the multiphase flow and at least one outlet located at a lower axial end of the container; a hollow flow regulating device which is axially arranged within the container and includes a lower first end located an axial distance from the outlet to thereby provide an axially extending drainage gap between the lower first end of the flow regulating device and a top of the outlet, the drainage gap having a drainage area and the flow regulating device comprising a number of perforations along the axial length thereof and a discharge opening in the first end which opens towards the outlet; and a position adjustment device which is connected to the flow regulating device and is configured to selectively move the flow regulating device in the axial direction to selective stationary positions to thereby adjust the drainage area of the drainage gap; wherein the position adjustment device comprises an external interface arranged on the outside of the container; and wherein the external interface is configured to be manipulated by an ROV manipulator or an actuator wired to a subsea control system. 2. The apparatus according to claim 1 , wherein the position adjustment device is connected to an upper second end of the flow regulating device. 3. The apparatus according to claim 1 , wherein during operation of the apparatus, the multiphase flow separates into at least the liquid phase and the gas phase in the container, and wherein the inlet and the outlet are arranged such that the liquid phase having the largest density separates at the lower axial end of the container, closest to the outlet. 4. The apparatus according to any of claims 1 - 3 , wherein the container converges as an abutted cone at the outlet. 5. The apparatus according to any of claims 1 - 3 , wherein the diameter of the flow regulating device is equal to the diameter of the outlet. 6. The apparatus according to claim 1 , further comprising a venturi located downstream of the outlet. 7. In a subsea multiphase flow mixing apparatus for mixing a multiphase flow comprising at least a liquid phase and a gas phase, the apparatus comprising at least one container which is configured to be disposed subsea and a hollow flow regulating device which is axially arranged within the container, the container including at least one inlet for the multiphase flow and at least one outlet located at a lower axial end of the container, the flow regulating device comprising a lower first end located an axial distance from the outlet, a plurality of perforations extending along the axial length thereof and a discharge opening in the lower first end which opens towards the outlet, the lower first end of the flow regulating device and a top of the outlet defining an axially extending drainage gap having a drainage area, the improvement comprising a position adjustment device which is connected to the flow regulating device and is configured to selectively move the flow regulating device in the axial direction to selective stationary positions to thereby adjust the drainage area of the drainage gap. 8. The apparatus according to claim 7 , wherein the position adjustment device is connected to an upper second end of the flow regulating device. 9. The apparatus according to claim 7 , wherein during operation of the apparatus, the multiphase flow separates into at least the liquid phase and the gas phase in the container, and wherein the inlet and the outlet are arranged such that the liquid phase having the largest density separates at the lower axial end of the container, closest to the outlet. 10. The apparatus according to claim 7 , wherein the container converges as an abutted cone at the outlet. 11. The apparatus according to claim 7 , wherein the diameter of the flow regulating device is equal to the diameter of the outlet. 12. The apparatus according to any of claim 7 , wherein the position adjustment device comprises an external interface arranged on the outside of the container which is configured to be manipulated by an ROV manipulator. 13. The apparatus according to claim 7 , further comprising a venturi located downstream of the outlet.