System and method for measuring a signal propagation speed in a liquid or gaseous medium

What is claimed is: 1. System for measuring a signal propagation speed in a liquid which is contained in a vessel, or in a gaseous medium which is contained in the same vessel above the surface of the liquid, the system comprising at least one acoustic or electromagnetic transmitter mounted on one side of the liquid surface for transmitting a signal into the liquid or into the gaseous medium, at least one acoustic or electromagnetic receiver mounted on the same side of the liquid surface as the at least one transmitter for receiving a reflection of the signal, at least one electronic control and data processing unit for controlling operation of the at least one transmitter and of the at least one receiver and for determining the signal propagation speed from a time of flight of the signal, wherein the at least one transmitter is arranged to transmit a first signal in a first direction which is at an acute or right first angle to a first reflective surface, along which first direction a variation or a gradient in the signal propagation speed is expected, wherein the first reflective surface reflects the first signal so that it travels in a predetermined second direction and at the same first angle with respect to the first reflective surface; a first acoustic or electromagnetic receiver is arranged to receive the reflected first signal; the at least one transmitter is further arranged to transmit a second signal in a predetermined third direction which is at an acute second angle to the first direction, where the first or a second reflective surface reflects the second signal so that it travels in a predetermined fourth direction and at an acute third angle with respect to the first or second reflective surface, respectively; the first or a second acoustic or electromagnetic receiver is arranged to receive the reflected second signal; the at least one electronic control and data processing unit is arranged to obtain a first time of flight of the first signal; a obtain a second time of flight of the second signal; determine the signal propagation speed under the assumption that both the first and the second signal travel at the same average speed and based on the first time of flight, a corresponding known first distance, the second time of flight and a corresponding known second distance, where the first and second distance are different from each other and are either a distance between the at least one transmitter and the first or the second receiver, respectively, or a known geometric dimension of the vessel. 2. System according to claim 1 , wherein the known geometric dimension is the diameter of the vessel. 3. System according to claim 1 , wherein the first reflective surface is the liquid surface. 4. System according to claim 3 , wherein the second reflective surface is the side wall of the vessel. 5. System according to claim 1 , wherein the first reflective surface is a side wall of the vessel which lies opposite to the side where the at least one transmitter is mounted at. 6. System according to claim 5 , wherein the second reflective surface is the liquid surface. 7. System according to claim 1 , wherein the at least one transmitter and the first receiver are integrated in the same device. 8. Method for measuring a signal propagation speed in a liquid which is contained in a vessel, or in a gaseous medium which is contained in the same vessel above the surface of the liquid, the method comprising the steps: transmitting a signal into the liquid or into the gaseous medium by at least one acoustic or electromagnetic transmitter mounted on one side of the liquid surface, receiving a reflection of the signal by at least one acoustic or electromagnetic receiver mounted on the same side of the liquid surface as the at least one transmitter, at least one electronic control and data processing unit for controlling operation of the at least one transmitter and of the at least one receiver, for determining a time of flight of the signal and for determining the signal propagation speed from the time of flight, wherein transmitting by the at least one transmitter a first signal in a first direction which is at an acute or right first angle to a first reflective surface, along which first direction a variation or a gradient in the signal propagation speed is expected, wherein the first reflective surface reflects the first signal so that it travels in a predetermined second direction and at the same first angle to the first reflective surface; receiving the reflected first signal by a first acoustic or electromagnetic receiver; transmitting by the at least one transmitter a second signal in a predetermined third direction which is at an acute second angle to the first direction, where the first or a second reflective surface reflects the second signal so that it travels in a predetermined fourth direction and at an acute third angle with respect to the first or second reflective surface, respectively; receiving the reflected second signal by the first or a second acoustic or electromagnetic receiver; via the at least one electronic control and data processing unit: obtaining a first time of flight of the first signal; obtaining a second time of flight of the second signal; determining the signal propagation speed under the assumption that both the first and the second signal travel at the same average speed and based on the first time of flight, a corresponding known first distance, the second time of flight and a corresponding known second distance, where the first and second distance are different from each other and are either a distance between the at least one transmitter and the first or second receiver, respectively, or a known geometric dimension of the vessel. 9. Method according to claim 8 , wherein in case that the first or second reflective surface is the liquid surface, the level of the liquid in the vessel is determined based on the determined signal propagation speed and based on the time of flights of the first and second signals. 10. System according to claim 2 , wherein the first reflective surface is the liquid surface. 11. System according to claim 10 , wherein the second reflective surface is the side wall of the vessel. 12. System according to claim 2 , wherein the first reflective surface is a side wall of the vessel which lies opposite to the side where the at least one transmitter is mounted at. 13. System according to claim 12 , wherein the second reflective surface is the liquid surface. 14. System according to 2 , wherein the at least one transmitter and the first receiver are integrated in the same device. 15. System according to 3 , wherein the at least one transmitter and the first receiver are integrated in the same device. 16. System according to 4 , wherein the at least one transmitter and the first receiver are integrated in the same device. 17. System according to 5 , wherein the at least one transmitter and the first receiver are integrated in the same device. 18. System according to 6 , wherein the at least one transmitter and the first receiver are integrated in the same device. 19. System according to 12 , wherein the at least one transmitter and the first receiver are integrated in the same device. 20. System according to 11 , wherein the at least one transmitter and the first receiver are integrated in the same device.