Sealing device and method for sealing in a fluid medium

The invention claimed is: 1. A seal device for sealing in a liquid medium, comprising: a first seal assembly disposed on a primary side facing the medium and configured to seal a stationary component with respect to a rotatable component, the first seal assembly comprising at least two lip seals directly touching the rotatable component; a front lip seal attached to the rotatable component, disposed on an outer edge of the first seal assembly on the primary side facing the medium, and configured to seal the rotatable component with respect to the stationary component; a second seal assembly disposed on a secondary side facing away from the medium and configured to seal the stationary component with respect to the rotatable component; a sensor connected to a volume located between the first seal assembly and the second seal assembly and configured to detect a change of a moisture level in the volume, wherein the stationary component further includes a bore located axially between a contact surface for the first seal assembly and a contact surface for the second seal assembly, wherein the volume is connected to a pressure tank by the bore. 2. The seal device according to claim 1 , wherein the first seal assembly or the second seal assembly comprises a lip seal having an axially extending indentation facing the medium. 3. The seal device according to claim 2 , wherein the first seal assembly or the second seal assembly comprises at least one additional lip seal having an axially extending indentation facing away from the medium. 4. The seal device according to claim 3 , wherein the first seal assembly or the second seal assembly comprises at least one further lip seal configured to receive a coil spring radially enclosing the rotatable component such that a center axis of the coil spring has a circular course with a larger radius than a course of a seal surface of the further lip seal. 5. The seal device according to claim 4 , wherein the lip seal, the further lip seal, or the additional lip seal are exchangeably connected to the stationary component or to the rotatable component. 6. The seal device according to claim 1 , wherein the first seal assembly further comprises a further sensor disposed between the at least two lip seals, and wherein the further sensor is configured to detect a change of a moisture level. 7. The seal device according to claim 1 , wherein the stationary component is a housing, and the rotatable component is a shaft. 8. The seal device according to claim 1 , wherein the sensor is configured to generate a measurement signal when the change of the moisture level comprises an increase in the moisture level by at least one predetermined threshold value. 9. The seal device according to claim 1 , further comprising: a rear lip seal attached to the stationary component, disposed on an outer edge of the second seal assembly on the secondary side facing away from the medium, and configured to seal the stationary component with respect to the rotatable component. 10. An underwater turbine with a seal device for sealing a shaft of the underwater turbine with respect to seawater, wherein the seal device comprises a first seal assembly disposed on a primary side facing the seawater and configured to seal a stationary component with respect to the shaft, the first seal assembly comprising at least two lip seals directly touching the shaft; wherein the seal device comprises a front lip seal attached to the shaft, disposed on an outer edge of the first seal assembly on a primary side facing the seawater, and configured to seal the shaft with respect to the stationary component; wherein the seal device comprises a second seal assembly disposed on a secondary side facing away from the seawater and configured to seal the stationary component with respect to the shaft; and wherein the seal device comprises a sensor connected to a volume located axially between the first seal assembly and the second seal assembly, the sensor being configured to detect a change of a moisture level. 11. The underwater turbine according to claim 10 , wherein the seal device includes a pressure tank connected to the volume by a bore. 12. The underwater turbine according to claim 10 , wherein the sensor is configured to generate a measurement signal when the change of the moisture level comprises an increase in the moisture level by at least one predetermined threshold value. 13. The turbine of claim 10 , further comprising: a rear lip seal attached to the stationary component, disposed on an outer edge of the second seal assembly on the secondary side facing away from the seawater, and configured to seal the stationary component with respect to the shaft. 14. A method for sealing in a liquid medium, comprising: sealing a stationary component with respect to a rotatable component using a first seal assembly, wherein the first seal assembly comprises at least two lip seals directly touching the rotatable component; sealing a stationary component with respect to the rotatable component using a second seal assembly; detecting a change of a moisture level in a space located axially between the first seal assembly and the second seal assembly; and generating a measurement signal when the change comprises an increase by at least one predetermined threshold value. 15. The method according to claim 14 , including connecting the space to a pressure tank via a bore.