Fuel filter

The invention claimed is: 1. A fuel filter element, comprising: an untreated space; an inlet line that receives untreated fuel from a fuel supply system, the inlet line connected to the untreated space; an untreated return line via which the untreated space is connectable to a return pipe that is connectable to the fuel supply system; an opening through which the untreated fuel in the untreated space is flowable into the untreated return line; a treated space; a filter material that separates the untreated space from the treated space, the treated space receiving treated fuel after passing the untreated fuel into the filter material; an outlet line connected to the treated space that passes the treated fuel therethrough; an end disk axially bordering the filter material and facing toward the untreated space; a closure element that extends away from the end disk, the closure element including a radial seal; wherein, in an operationally ready state, the closure element projects into and closes the opening without completely blocking fluid flow through the untreated return line and the radial seal sealingly contacts at least one of a surface and an edge extending around an outer perimeter of the opening. 2. The fuel filter element according to claim 1 , wherein the filter element is shaped as a ring filter element. 3. The fuel filter element according to claim 1 , wherein the closure element is shaped as a pin. 4. The fuel filter element according to claim 3 , further comprising at least one positioning element configured to selectively interact with a corresponding positioning element on a filter housing during insertion of the filter element into the filter housing for finding of an orientation in which the pin is aligned with the opening in an insertion direction of the pin into the opening. 5. The fuel filter element according to claim 4 , wherein the pin comprises a slide face configured to selectively slide along a ramp of the filter housing that projects into the untreated space during turning of the filter element around a longitudinal center axis of the filter housing for orienting the pin relative to the opening. 6. The fuel filter element according to claim 5 , further comprising at least one guiding element configured to selectively interact with a corresponding guiding element on the filter housing during insertion of the filter element into the filter housing according to a key-lock principle. 7. The fuel filter element according to claim 6 , wherein: the pin includes an axially projecting guiding section, the axially projecting guiding section including the slide face; the axially projecting guiding section is positioned and dimensioned such that the axially projecting guiding section is configured to extend radially alongside at least one guiding wall bordering at least one of radially inside and radially outside the ramp and axially projecting beyond the ramp; and the axially projecting guiding section is configured to selectively rest the slide face axially against the ramp and keep the pin axially spaced apart from the at least one guiding wall. 8. The fuel filter element according to claim 1 , wherein the untreated return line includes a wall having the opening, the surface, and the edge. 9. The fuel filter element according to claim 1 , wherein the opening opens into the untreated return line in a direction transverse to a through-flow direction of the untreated return line. 10. The fuel filter element according to claim 1 , wherein a central longitudinal axis of the opening and a central longitudinal axis of the untreated return line extend transversely to one another. 11. The fuel filter element according to claim 1 , wherein, in a region of the untreated return line in which the opening is arranged, a through-flow direction of the untreated return line extends transversely to a through-flow direction of the opening. 12. The fuel filter element according to claim 1 , wherein: the untreated return line includes a first axial end and a second axial end; and the opening opens into a side of the untreated return line disposed between the first axial end and the second axial end. 13. The fuel filter element according to claim 1 , wherein, when in the operationally ready state, the closure element projects into a fluid passage of the untreated return line and the fluid passage of the untreated return line is at least partially unblocked by the closure element such that fluid within the fluid passage is flowable passed the closure element. 14. The fuel filter element according to claim 1 , wherein: the surface is an axially facing surface in which the opening is disposed; the opening is at least partially defined by a radially inward facing surface; and the axially facing surface and the radially inward facing surface adjoin one another at and form the edge. 15. A fuel filter for a fuel supply system of an internal combustion engine, comprising: an untreated space; a treated space; a filter housing including an untreated-side inlet that receives untreated fuel from a fuel supply system, a treated-side outlet, an untreated-side return line that returns the untreated fuel to the fuel supply system, a first housing part, and a second housing part that screws together with the first housing part, the untreated-side return line formed at least partially in and at least partially outside of one of the first housing part and the second housing part; a filter element arranged in the filter housing and separating the treated space from the untreated space, the treated space receiving treated fuel after passing the untreated fuel into a filter material; the filter element including i) the filter material through which the untreated fuel is flowable from the untreated space to the treated space and ii) an end disk that axially borders the filter material; an opening through which the untreated fuel in the untreated space is flowable into the untreated-side return line; and a closure element that extends away from the end disk, the closure element including a radial seal; wherein, in an operationally ready state, the closure element projects into and closes the opening without completely blocking fluid flow through the untreated-side return line and the radial seal sealingly contacts at least one of a surface and an edge extending around an outer perimeter of the opening. 16. The fuel filter according to claim 15 , wherein the filter element is shaped as a ring filter element. 17. The fuel filter according to claim 15 , wherein the closure element is shaped as a pin. 18. The fuel filter according to claim 15 , further comprising a positioning device including a plurality of positioning elements, wherein: the plurality of positioning elements includes at least one positioning element on a filter element side and at least one positioning element on a filter housing side; the plurality of positioning elements interact during insertion of the filter element into the filter housing for finding of an orientation in which the closure element is aligned with the opening in an insertion direction of the closure element into the opening. 19. The fuel filter according to claim 18 , wherein: the filter housing further includes a ramp projecting into the untreated space, the ramp beginning at the opening, extending circular concentric to a longitudinal center axis of the filter housing, ending at the opening, and declining from a beginning of the ramp to an end of the ramp in a direction towards the opening; and