Multi-electrode sensor for determining the gas content in a two-phase flow

The invention claimed is: 1. A sensor for determining gas content of a two phase fluid flowing in a flow line, the sensor comprising: a sleeve configured to be arranged in the flow line, in a stream of the fluid, wherein the sleeve of the sensor includes a plurality of measurement electrodes spaced apart from and in register with one another so that in pairs the measurement electrodes define a plurality of subdivision spaces subdividing a flow section of the sleeve; and switch and measurement members that are coupled to the measurement electrodes to cause each subdivision space of the sleeve to switch between a measuring state in which the members apply an excitation electrical signal between the two adjacent measurement electrodes defining a subdivision space under consideration and measure a value representative of a reception electrical signal resulting from applying the excitation electrical signal to determine gas content of the fluid that is associated with the representative value, and a non-measuring state, wherein the switch and measurement members are configured to selectively switch the state of each of the subdivision spaces independently of one another, and wherein the sleeve of the sensor further includes guard electrodes that extend ends of the measurement electrodes while being electrically separate therefrom, and that are coupled to the switch and measurement members such that the guard electrodes are at all times at a same electric potential as the measurement electrodes that the guard electrodes extend respectively. 2. A sensor according to claim 1 , wherein the switch and measurement members apply a same electric potential to the two adjacent measurement electrodes that define the subdivision space under consideration to cause the space to adopt the non-measuring state. 3. A sensor according to claim 1 , wherein the switch and measurement members interrupt all electrical connections between the two adjacent measurement electrodes defining the subdivision space under consideration to cause the space to adopt the non-measuring state. 4. A sensor according to claim 1 , wherein the switch and measurement members sequentially switch the state of at least one of the subdivision spaces at least once during a measurement cycle. 5. A sensor according to claim 4 , wherein each subdivision space adopts the measuring state at least once during the measurement cycle. 6. A sensor according to claim 4 , wherein during the measurement cycle at least a first of the subdivision spaces adopts the measuring state while another subdivision space adjacent to the first adopts the non-measuring state. 7. A sensor according to claim 1 , wherein the measurement electrodes are spaced apart from one another by spacers at least partly made of electrically insulating material. 8. A sensor according to claim 7 , wherein the spacers include passages into which connection wires are inserted to provide the coupling between the measurement electrodes and the switch and measurement members. 9. A sensor according to claim 1 , wherein the measurement electrodes are plane and parallel to one another. 10. A sensor according to claim 1 , wherein the measurement electrodes are coaxial, surrounding one another about a common axis, and presenting a section that is circular in a section plane perpendicular to the common axis. 11. A sensor according to claim 10 , wherein the measurement electrodes are frustoconical. 12. A sensor according to claim 10 , wherein the measurement electrodes are cylindrical. 13. A sensor according to claim 10 , wherein a ratio of diameters of two adjacent measurement electrodes in the section plane lies in a range of 1.1 to 3.0, or in a range of 1.4 to 2.0. 14. A sensor according to claim 1 , wherein the sleeve has three to six measurement electrodes.