Fuel filter device

The invention claimed is: 1. A fuel filter device for an internal combustion engine, comprising: a ring filter element having a filter axis separating a raw side from a clean side, a water separator configured as an electric coalescer for separating water from a fuel flow, wherein the water separator configured as the electric coalescer is arranged on the clean side within the ring filter element and includes at least two electrodes arranged coaxially with respect to the filter axis, and wherein at least one electrode of the at least two electrodes is insulated from the fuel flow, and wherein the at least two electrodes are tubular-shaped and form an annular channel, which in an installed state defines tangentially directed inflow openings arranged at a top part and facilitate a helical flow of the fuel flow in the annular channel. 2. The fuel filter device according to claim 1 , further comprising an end separator arranged at a lower end of at least one electrode disposed radially inside another electrode of the at least two electrodes, wherein the end separator via a bell-like intermediate piece merges into the at least one electrode. 3. The fuel filter device according to claim 1 , wherein at least one electrode is disposed radially inside of another electrode of the at least two electrodes and delimits a clean channel. 4. A fuel filter device for an internal combustion engine, comprising: a ring filter element having a filter axis separating a raw side from a clean side; a water separator configured as an electric coalescer for separating water from a fuel flow; wherein the water separator configured as the electric coalescer is arranged on the clean side within the ring filter element and includes at least two electrodes arranged coaxially with respect to the filter axis, and wherein at least one electrode of the at least two electrodes is insulated from the fuel flow; and wherein one of: at least one electrode is disposed radially outside of another electrode of the at least two electrodes is tubular-shaped and has an upper passage, the at least one electrode disposed radially inside is cylindrical-shaped and includes a helical groove on an outer surface facing towards the radial outside, and the at least two electrodes engage against one another and delimit a helical channel connected to the clean side in a fluid-transmitting manner via the upper passage; at least one electrode is disposed radially outside and at least one radially inner electrode together delimit a zigzag-like annular channel; at least one electrode is disposed radially outside and is configured as a fluid-permeable metal frame and at least one radially inner electrode is at least one of cylindrical-shaped and tubular-shaped; or the at least two electrodes delimit an annular channel and a porous coalesce body is arranged in the annular channel. 5. The fuel filter device according to claim 4 , wherein at least one electrode is disposed radially inside of another electrode of the at least two electrodes and delimits a clean channel. 6. A fuel filter device for an internal combustion engine, comprising: a ring filter element having a filter axis separating a raw side from a clean side; a water separator configured as an electric coalescer for separating water from a fuel flow; wherein the water separator configured as the electric coalescer is arranged on the clean side within the ring filter element and includes at least two electrodes arranged coaxially with respect to the filter axis, and wherein at least one electrode of the at least two electrodes is insulated from the fuel flow; and wherein at least one of: at least one electrode is disposed radially outside and includes a pleated star-like metal mesh body configured complementarily to a pleated star of the ring filter element and engages against an inside of the ring filter element; or at least one electrode is disposed radially outside and defines a plurality of metal pigments arranged on an inside of a pleated star of the ring filter element. 7. The fuel filter device according to claim 6 , wherein at least one electrode is disposed radially inside of another electrode of the at least two electrodes and delimits a clean channel.