Burner pipe and rotary kiln for producing activated carbon

1 - 15 . (canceled) 16 . A rotary tube for a rotary tube furnace, configured for producing activated carbon, the rotary tube comprising a rotary tube body and a plurality of mixing sections comprising a plurality of mixing elements for mixing a feed material, wherein the rotary tube body and the mixing elements consist at least essentially of a quartz glass (fused silica); wherein the mixing elements are fastened on an inside of the rotary tube body and are firmly joined to the inside, wherein the mixing elements are firmly and permanently joined to the rotary tube body and the mixing elements comprise a plate-like configuration; wherein the rotary tube body comprises a middle axial section comprising a first internal cross section, two outer axial sections each comprising a second internal cross section and two transition sections each comprising a tapering third internal cross section; and wherein the rotary tube comprises a backflow protection or an overflow protection for solid or liquid materials on one or both of the outer axial sections, wherein the backflow protection or overflow protection is configured in such a way that the end adjacent to the respective transition section of one or both of the outer axial sections projects in the axial direction into the respective transition section. 17 . The rotary tube as claimed in claim 16 , wherein the mixing element has been installed on or fastened to the inside of the rotary tube body by means of a binder. 18 . The rotary tube as claimed in claim 16 , wherein the mixing element and the rotary tube body have been joined to one another by low-stress heat treatment and subsequent heat treatment. 19 . The rotary tube as claimed in claim 16 , wherein the mixing element is arranged in the middle axial section. 20 . The rotary tube as claimed in claim 16 , wherein the middle axial section and the two outer axial sections are cylindrical, and wherein the two transition sections are conical. 21 . The rotary tube as claimed in claim 16 , wherein the first internal cross section of the middle axial section is greater than the second internal cross section of the two outer axial sections and wherein the middle axial section is arranged between the two transition sections and/or the two outer axial sections. 22 . The rotary tube as claimed in claim 16 , wherein each transition section is arranged between the middle axial section and one of the two outer axial sections. 23 . The rotary tube as claimed in claim 16 , wherein the backflow protection or the overflow protection is located in the transition from the transition section to the outer axial section. 24 . The rotary tube as claimed in claim 16 , wherein the backflow protection or the overflow protection is configured in such a way that it prevents backflow or overflow of feed material into one or both of the outer axial sections. 25 . The rotary tube as claimed in claim 16 , wherein the mixing elements extend at least essentially in axial direction. 26 . The rotary tube as claimed in claim 16 , wherein all mixing elements comprise essentially the same length or width or thickness, and wherein the mixing elements are each inclined by an angle of inclination α to the inside of the rotary tube body in the direction of rotation D of the rotary tube at least essentially in sections, based on their length, wherein the respective angle of inclination α of the mixing elements measured between the radius of the rotary tube body extending from the contact region between the rotary tube body and the respective mixing element and the plane running in the axial direction through the respective mixing element is in the range from 1 to 60°. 27 . The rotary tube as claimed in claim 16 , wherein the length of the mixing elements is from 10% to 100% of the length of the middle axial section. 28 . The rotary tube as claimed in claim 16 , wherein a plurality of mixing elements are fastened at a distance from one another in a first row in the circumferential direction in the middle axial section, and wherein a plurality of mixing elements are fastened at a distance from one another in a second row in the circumferential direction in the middle axial section. 29 . The rotary tube as claimed in claim 28 , wherein the mixing elements of the second row are overlapping in the axial direction and are offset in the circumferential direction relative to the mixing elements of the first row. 30 . The rotary tube as claimed in claim 16 , wherein the rotary tube body and the mixing element consist at least essentially of a quartz glass, and wherein the quartz glass comprises a content of aluminum of not more than 40 ppm. 31 . The rotary tube as claimed in claim 16 , wherein the outer axial sections each comprise an inlet and outlet opening for the introduction, discharge and passage of gases and also for introducing and discharging a feed material. 32 . A rotary tube furnace for producing activated carbon by means of sulfonation, carbonization and activation in a batch process, wherein the rotary tube furnace comprises a rotary tube as claimed in claim 16 . 33 . The rotary tube furnace as claimed in claim 32 , wherein the rotary tube furnace comprises a heating device for direct or indirect heating of the rotary tube.