Rotary machine with adjustable leakage gap

What is claimed: 1. A rotary machine for acting on a process fluid, comprising: an impeller configured to act on the process fluid; a shaft, on which the impeller is mounted; a drive operatively connected to the shaft and configured to rotate the shaft and the impeller about an axial direction; a seal having a sealing element sealing the shaft during rotation of the shaft; and a flush casing configured to receive a flushing fluid for flushing the sealing element, the flush casing delimiting an annular flush chamber extending about the sealing element, and the flush casing comprising a bushing surrounding the sealing element and delimiting a radial leakage gap arranged between the sealing element and the bushing, an axial leakage gap being disposed between and delimited by directly opposing surfaces of the impeller and the bushing, and the flush casing configured to be movable in the axial direction so as to adjust the width of the axial leakage gap in the axial direction. 2. The rotary machine in accordance with claim 1 , wherein the flush casing is configured to be movable in the axial direction between a first end position and a second end position. 3. The rotary machine in accordance with claim 2 , wherein the width of the axial leakage gap is zero when the flush casing is in an operating position located between the first end position and the second end position, so that the bushing abuts against the impeller. 4. The rotary machine in accordance with claim 2 , wherein the width of the axial leakage gap is at a maximum value when the flush casing is in one of the first and the second end position. 5. The rotary machine in accordance with claim 4 , wherein the maximum value is at most 5 mm. 6. The rotary machine in accordance with claim 4 , wherein the maximum value is at most 1 mm. 7. The rotary machine in accordance with claim 4 , wherein the maximum value is at most 0.5 mm. 8. The rotary machine in accordance with claim 1 , wherein the flush casing comprises a plurality of slot holes with each slot hole of the plurality of slot holes extending in the axial direction, and for each slot hole a fixing element is provided to engage a respective slot hole and to fix the flush casing with respect to the axial direction. 9. The rotary machine in accordance with claim 1 , wherein the bushing comprises an annular front side facing the impeller, and at least one radially extending groove is disposed in the front side of the bushing. 10. The rotary machine in accordance with claim 9 , wherein the front side of the bushing is plastic. 11. The rotary machine in accordance with claim 1 , wherein the bushing is plastic. 12. The rotary machine in claim 1 , further comprising a mounting flange configured to fasten the rotary machine to a wall of a vessel. 13. The rotary machine in accordance with claim 1 , wherein the impeller is an agitator configured to mix and agitate the process fluid. 14. The rotary machine in accordance with claim 13 , wherein the rotary machine is configured to be horizontally mounted to a wall of a vessel. 15. The rotary machine in accordance with claim 1 , wherein the radial leakage gap is configured to enable the flushing fluid to pass therethrough during operation of the rotary machine. 16. The rotary machine in accordance with claim 1 , wherein the axial leakage gap is configured to enable the flushing fluid to pass therethrough during operation of the rotary machine. 17. A rotary machine for acting on a process fluid, comprising: an impeller configured to act on the process fluid; a shaft, on which the impeller is mounted; a drive operatively connected to the shaft and configured to rotate the shaft and the impeller about an axial direction; a seal having a sealing element sealing the shaft during rotation of the shaft; and a flush casing configured to receive a flushing fluid for flushing the sealing element, the flush casing delimiting an annular flush chamber extending about the sealing element, and the flush casing comprising a bushing surrounding the sealing element and delimiting a radial leakage gap arranged between the sealing element and the bushing, the bushing arranged and configured to delimit an axial leakage gap between the impeller and the bushing, and the width of the axial leakage gap in the axial direction being adjustable, the flush casing configured to be movable in the axial direction between a first end position and a second end position, and the width of the axial leakage gap is zero when the flush casing is in an operating position located between the first end position and the second end position, so that the bushing abuts against the impeller.