Mixing device carbonator appliance comprising a carbonator and method of producing a carbonated beverage

The invention claimed is: 1. A mixing device ( 2 ) for a beverage and CO 2 gas for producing carbonated beverage, the mixing device ( 2 ) comprising a mixing channel ( 4 ), an inlet ( 6 ) to the mixing channel ( 4 ) and an outlet ( 8 ) for carbonated beverage from the mixing channel ( 4 ), wherein the mixing channel ( 4 ) extends in a main direction ( 10 ), along which main direction ( 10 ) the beverage is adapted to flow, wherein the mixing channel ( 4 ) comprises first channel sections ( 16 ) and second channel sections ( 18 ) along the main direction ( 10 ), characterized in that the mixing channel ( 4 ) has an elongated cross section seen in a direction perpendicular to the main direction ( 10 ), wherein at least a continuous first delimiting surface ( 22 ) of the mixing channel ( 4 ) is provided with at least two protrusions ( 20 ) extending at least partially along the first delimiting surface ( 22 ) in a first direction across the mixing channel ( 4 ) and protruding towards a second delimiting surface ( 24 ) of the mixing channel ( 4 ) to form the second channel sections ( 18 ), wherein cross sections of the first delimiting surface ( 22 ) taken perpendicular to the main direction at the first channel sections ( 16 ) and at the second channel sections ( 18 ) are circular, wherein the second channel sections ( 18 ) are narrower than the first channel sections ( 16 ), wherein the first delimiting surface ( 22 ) and the protrusions ( 20 ) are separated from the second delimiting surface ( 24 ), and wherein cross sections of first channel sections ( 16 ) taken perpendicular to the main direction ( 10 ) are ring shaped and cross sections of the second channel section ( 18 ) taken perpendicular to the main direction ( 10 ) are ring shaped. 2. The mixing device ( 2 ) according to claim 1 , wherein the second channel sections ( 18 ) are 0.1-1.0 mm wide between one of the protrusions ( 20 ) and the second delimiting surface ( 24 ). 3. The mixing device ( 2 ) according to claim 1 , wherein the mixing channel ( 4 ) has a length in the main direction ( 10 ) of between 5-40 cm. 4. The mixing device ( 2 ) according to claim 1 , wherein the elongated cross section is curved. 5. The mixing channel according to claim 4 , wherein the mixing device ( 2 ) comprises a tube ( 12 ) and a core ( 14 ), and wherein the mixing channel ( 4 ) is formed between the tube ( 12 ) and the core ( 14 ). 6. The mixing device ( 2 ) according to claim 1 , wherein the protrusions ( 20 ) of the first delimiting surface ( 22 ) protrude between 0.5-8.0 mm into the mixing channel ( 4 ) to form the first channel sections ( 16 ) between the protrusions ( 20 ), which first channel sections ( 16 ) extend between 0.6-9.0 mm between the first delimiting surface ( 22 ) and the second delimiting surface ( 24 ). 7. The mixing device ( 2 ) according to claim 1 , wherein at least one of the protrusions ( 20 ) of the first delimiting surface ( 22 ) extends along the first delimiting surface ( 22 ) in a second direction perpendicular to the first direction across the entire first delimiting surface ( 22 ) located in the mixing channel ( 4 ). 8. The mixing device ( 2 ) according to claim 1 , wherein the first delimiting surface ( 22 ) and the second delimiting surface ( 24 ) are provided with at least 15 protrusions ( 20 ) extending at least partially along the first delimiting surface ( 22 ) and the second delimiting surface ( 24 ) in a direction across the mixing channel ( 4 ) to form corresponding at least 15 second channel sections ( 18 ) of the mixing channel ( 4 ). 9. A carbonator ( 40 ) for mixing a non-carbonated beverage with CO 2 gas for producing carbonated beverage, the carbonator ( 40 ) comprising a mixing device ( 2 ) according to claim 1 and a CO 2 inlet arrangement ( 42 ) for admitting the CO 2 gas into the beverage, wherein the CO 2 inlet arrangement ( 42 ) comprises an admixing passage ( 44 ) and a CO 2 inlet nozzle ( 46 ), which admixing passage ( 44 ) is connected to a beverage source and the inlet of the mixing channel ( 4 ), and wherein the CO 2 inlet nozzle ( 46 ) is connected to the admixing passage ( 44 ) such that in use the beverage and the CO 2 gas are mixed in two steps, a first mixing step in the admixing passage ( 44 ) and a second mixing step in the mixing channel ( 4 ). 10. The carbonator ( 40 ) according to claim 9 , wherein the nozzle ( 46 ) has a minimum diameter of area of 0.2-0.4 mm. 11. The carbonator ( 40 ) according to claim 9 , wherein the carbonator ( 40 ) is adapted in use to permit the CO 2 gas to enter the admixing passage ( 44 ) substantially at sonic velocity. 12. The carbonator ( 40 ) according to claim 9 , wherein the admixing passage ( 44 ) is adapted in use to be subject to a beverage pressure of 1.5-9 bar. 13. The carbonator ( 40 ) according to claim 9 , wherein the mixing channel ( 4 ) is adapted in use to be flowed through by beverage at a flow rate of 0.5-3 liters/minute. 14. The carbonator ( 40 ) according to claim 9 , further comprising an outlet conduit ( 48 ) connected to the outlet ( 8 ) of the mixing channel ( 4 ). 15. The carbonator ( 40 ) according to claim 14 , wherein the outlet conduit ( 48 ) comprises a first flow control valve ( 50 ). 16. The carbonator ( 40 ) according to claim 15 , wherein the outlet conduit ( 48 ) comprises a second flow control valve ( 52 ). 17. The carbonator ( 40 ) according to claim 9 , further comprising a beverage cooler ( 60 ), wherein the beverage cooler ( 60 ) is connected to the admixing passage ( 44 ). 18. The carbonator ( 40 ) according to claim 17 , wherein the beverage cooler ( 60 ) comprises a flow passage ( 63 ) or a container arranged in connection with a cooled compartment ( 65 ). 19. The carbonator ( 40 ) according to claim 9 , further comprising a beverage pump ( 62 ) being connected to between the beverage source and the admixing passage ( 44 ). 20. The carbonator ( 40 ) according to claim 9 , further comprising a pressure vessel connector ( 64 ) and a CO 2 conduit ( 66 ) leading from the pressure vessel connector ( 64 ) to the CO 2 inlet nozzle ( 46 ). 21. The carbonator ( 40 ) according to claim 20 , further comprising a check valve ( 68 ) and a flow control valve ( 70 ) arranged in the CO 2 conduit ( 66 ). 22. The carbonator ( 40 ) according to claim 9 , further comprising: an outlet conduit ( 48 ) connected to the outlet ( 8 ) of the mixing channel ( 4 ), wherein the outlet conduit ( 48 ) comprises a first flow control valve ( 52 ); a pressure vessel connector ( 64 ) and a CO 2 conduit ( 66 ) leading from the pressure vessel connector ( 64 ) to the CO 2 inlet nozzle ( 46 ); and a check valve ( 68 ) and a second flow control valve ( 70 ) arranged in the CO 2 conduit ( 66 ), wherein the second flow control valve ( 52 ) and the third flow control valve ( 70 ) are shut-off-valves, which are adapted to be controlled substantially simultaneously. 23. An appliance ( 90 ) comprising a carbonator ( 40 ) according to claim 9 . 24. A method of producing a carbonated beverage in a carbonator ( 40 ) by mixing a non-carbonated beverage with CO 2 gas, the carbonator ( 40 ) comprising a mixing device ( 2 ) according to claim 1 and a CO 2 inlet arrangement ( 42 ) connected to the inlet of the mixing channel ( 4 ), the CO 2 inlet arrangement ( 42 ) comprising an admixing passage ( 44 ) and a CO 2 inlet nozzle ( 46 ) connected to the admixing passage ( 44 ), wherein the method comprises: a