Self-calibrating optical turbidity measuring apparatus

What is claimed is: 1. A self-calibrating optical turbidity measuring apparatus for measuring a turbidity of a medium, the apparatus comprising: a housing comprising a cavity, wherein the cavity comprises an inner wall, wherein the inner wall of the cavity comprises a conical section or is of a conical form, with an opening in an area of a second end of the cavity, the second end arranged on a bottom of the cavity, an optical standard, which is moveable between a first section and a second section within the cavity, and a light source and a light sensor, arranged at the first section and configured to measure the turbidity of the medium, when the optical standard is at the second section, and configured to measure the turbidity of the optical standard and to determine, as a function of the measured turbidity, a calibration coefficient for performing a self-calibration, when the optical standard is at the first section. 2. The turbidity measuring apparatus of claim 1 , wherein the inner wall comprises an essentially straight section in the area of a first end of the cavity, wherein the essentially straight section comprises the first section and the second section, wherein the second section is distinct from the first section and is closer to the first end of the cavity than the first section; and/or wherein the opening is configured to open the cavity for the medium. 3. The turbidity measuring apparatus of claim 1 , further comprising: a separator configured to separate the optical standard from the medium, when the optical standard is at the second section, wherein the separator provides a seal between the first section and the second section, the seal comprising at least one of a sealing ring attached to a bottom of the optical standard, and lamellae like a camera aperture. 4. The turbidity measuring apparatus of claim 1 , further comprising a lip or a brush, wherein the lip or the brush is attached to the optical standard, and wherein the lip or brush is configured to clean the first section. 5. The turbidity measuring apparatus of claim 1 , wherein the optical standard comprises a solid, a fluid, and/or a gel material. 6. The turbidity measuring apparatus of claim 1 , further comprising a cleaning apparatus within the cavity. 7. The turbidity measuring apparatus of claim 1 , wherein the light source and the light sensor are further configured to measure the turbidity of the optical standard at a plurality of points in time. 8. The turbidity measuring apparatus of claim 1 , further comprising a motor, wherein the optical standard is connected to the motor, which motor is configured to move the optical standard along a direction that is parallel to a middle axis of the essentially straight section. 9. A method for self-calibrating an optical turbidity measuring apparatus, the method comprising: providing a moveable optical standard at a first section of a cavity within a housing of the apparatus, wherein the cavity comprises an inner wall, wherein the inner wall of the cavity comprises a conical section or is of a conical form, with an opening in the area of a second end of the cavity, the second end arranged on a bottom of the cavity, wherein a light source and a light sensor are arranged at the first section of the cavity; measuring, using the light source and the light sensor, a turbidity of the optical standard; determining, as a function of the measured turbidity, a calibration coefficient; performing a self-calibration by using the determined calibration coefficient as a new calibration coefficient; moving the optical standard to a second section within the cavity, wherein the second section is distinct from the first section and is closer to a first end of the cavity than the first section; providing a medium at the first section; and measuring, using the light source and the light sensor, and by using the new calibration coefficient, the turbidity of the medium. 10. The method of claim 9 , further comprising the steps of: when the determined calibration coefficient exceeds a predefined limit, sending an alarm; or when the determined calibration coefficient is within the predefined limit, continue measuring. 11. The method of claim 9 , wherein measuring the turbidity of the optical standard comprises measuring at a plurality of points in time. 12. A computer program product comprising computer executable instructions existing in a tangible medium, the tangible medium being associated with a self-calibrating optical turbidity measuring apparatus for measuring a turbidity of a medium, the apparatus comprising: a housing comprising a cavity, wherein the cavity comprises an inner wall, wherein the inner wall of the cavity comprises a conical section or is of a conical form, with an opening in an area of a second end of the cavity, the second end arranged on a bottom of the cavity, an optical standard, which is moveable between a first section and a second section within the cavity, and a light source and a light sensor, arranged at the first section and configured to measure the turbidity of the medium, when the optical standard is at the second section, and configured to measure the turbidity of the optical standard and to determine, as a function of the measured turbidity, a calibration coefficient for performing a self-calibration, when the optical standard is at the first section; wherein the computer executable instructions are executed to: cause the optical standard to move from the second section to the first section of the cavity; measure, using the light source and the light sensor, a turbidity of the optical standard; determine, as a function of the measured turbidity, a calibration coefficient; perform a self-calibration by using the determined calibration coefficient as a new calibration coefficient; move the optical standard to the second section within the essentially straight section, wherein the second section is distinct from the first section and is closer to a first end of the cavity than the first section; provide a medium at the first section; and measure, using the light source and the light sensor, and by using the new calibration coefficient, the turbidity of the medium.