Unitary dispensing nozzle for co-injection of two or more liquids and method of using same

What is claimed is: 1. A method of filling a container with liquid compositions, comprising the step of: (A) providing a container that has an opening, wherein the total volume of said container ranges from 10 ml to 10 liters; (B) providing a minor liquid feed composition and a major liquid feed composition that is different from said minor liquid feed composition in viscosity, solubility, and/or miscibility; (C) filling said container with the minor liquid feed composition and the major liquid feed composition by using a unitary dispensing nozzle comprising: (a) a first end; (b) a second, opposite end; (c) one or more sidewalls between said first and second ends; (d) one or more first flow passages for flowing the major liquid feed composition through said nozzle, wherein each of said first flow passages is defined by a first inlet and a first outlet, wherein said first inlet(s) is/are located at the first end of said nozzle, and wherein said first outlet(s) is/are located at the second end of said nozzle; (e) one or more second flow passages for flowing the minor liquid feed composition through said nozzle, wherein each of said second flow passages is defined by a second inlet and a second outlet, wherein said second inlet(s) is/are located on or near at least one of said sidewalls and wherein said second outlet(s) is/are located at the second end of said nozzle, so that said one or more second flow passages extend through said at least one of the sidewalls and the second end of the nozzle, and (f) one or more third flow passages for flowing a third fluid through said nozzle, where said third fluid is different from said first and second fluids in viscosity, solubility, and/or miscibility, wherein each of said third flow passages is defined by a third inlet and a third outlet, wherein said third inlet(s) is/are located on or near at least one of said sidewalls and is/are spaced apart from said second inlet(s) and wherein said third outlet(s) is/are located at the second end of said nozzle, so that said one or more third flow passages extend through said at least one of the sidewalls and the second end of the nozzle, and wherein said third outlet(s) is/are substantially surrounded by said first outlet(s); wherein when there is more than one of said first outlets said second outlet(s) is/are substantially surrounded by said first outlet, and wherein said unitary dispensing nozzle is an integral piece free of any movable parts and substantially free of dead space. 2. The method of claim 1 , wherein the unitary dispensing nozzle comprises a plurality of said first flow passages with a plurality of said first inlets and a plurality of said first outlets, wherein each of said first outlets is characterized by a circular shape. 3. The method of claim 2 , wherein said plurality of first flow passages are configured to form a plurality of first liquid flows that are substantially parallel to each other. 4. The method of claim 1 , wherein each of said first outlet(s) is characterized by a crescent shape, with said second outlet(s) being located at or near the radius center of the crescent(s) formed by the first outlet(s). 5. The method of claim 1 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the second outlet(s) ranges from 5:1 to 50:1. 6. The method of claim 5 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the second outlet(s) ranges from 10:1 to 40:1. 7. The method of claim 6 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the second outlet(s) ranges from 15:1 to 35:1. 8. The method of claim 1 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the second outlet(s) ranges from 15:1 to 35:1. 9. The method of claim 1 , wherein the minor liquid feed composition is filled at an average flow rate ranging from 0.1 ml/second to 1000 ml/second. 10. The method of claim 1 , wherein the major liquid feed composition is filled at an average flow rate ranging from 50 ml/second to 10 L/second. 11. The method of claim 9 , wherein the major liquid feed composition is filled at an average flow rate ranging from 50 ml/second to 10 L/second. 12. The method of claim 1 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the third outlet(s) ranges from 10:1 to 40:1. 13. The method of claim 1 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total cross-sectional area of the third outlet(s) ranges from 15:1 to 35:1. 14. A method of filling a container with liquid compositions, comprising the step of: (A) providing a container that has an opening, wherein the total volume of said container ranges from 10 ml to 10 liters; (B) providing a minor liquid feed composition and a major liquid feed composition that is different from said minor liquid feed composition in viscosity, solubility, and/or miscibility; (C) simultaneously or nearly simultaneously filling said container with the minor liquid feed composition and the major liquid feed composition by using a unitary dispensing nozzle comprising: (a) a first end; (b) a second, opposite end; (c) one or more sidewalls between said first and second ends; (d) one or more first flow passages for flowing the major liquid feed composition through said nozzle, wherein each of said first flow passages is defined by a first inlet and a first outlet, wherein said first inlet(s) is/are located at the first end of said nozzle, and wherein said first outlet(s) is/are located at the second end of said nozzle, wherein each of said first outlet(s) is characterized by a crescent shape, with said second outlet(s) being located at or near the radius center of the crescent(s) formed by the first outlet(s); and (e) one or more second flow passages for flowing the minor liquid feed composition through said nozzle, wherein each of said second flow passages is defined by a second inlet and a second outlet, wherein said second inlet(s) is/are located on or near at least one of said sidewalls and wherein said second outlet(s) is/are located at the second end of said nozzle, so that said one or more second flow passages extend through said at least one of the sidewalls and the second end of the nozzle, and wherein said second outlet(s) is/are substantially surrounded by said first outlet(s), and wherein said unitary dispensing nozzle is an integral piece free of any movable parts and substantially free of dead space. 15. The method of claim 14 , wherein the unitary dispensing nozzle further comprises: (f) one or more third flow passages for flowing a third fluid through said nozzle, where said third fluid is different from said first and second fluids in viscosity, solubility, and/or miscibility, wherein each of said third flow passages is defined by a third inlet and a third outlet, wherein said third inlet(s) is/are located on or near at least one of said sidewalls and is/are spaced apart from said second inlet(s) and wherein said third outlet(s) is/are located at the second end of said nozzle, so that said one or more third flow passages extend through said at least one of the sidewalls and the second end of the nozzle, and wherein said third outlet(s) is/are substantially surrounded by said first outlet(s). 16. The method of claim 15 , wherein the ratio of the total cross-sectional area of the first outlet(s) over the total c