Multiphase flowmeter

The invention claimed is: 1. A method for measuring properties of a flowing multiphase mixture comprising: repeatedly measuring an electrical property of the multiphase mixture over a period of time, using a plurality of sensors comprising at least two sensing electrodes or at least two microwave antennas, the sensors being positioned around a same cross section of a conduit through which the multiphase mixture flows; processing the measurements to determine a plurality of values of permittivity or conductivity of a liquid phase of the multiphase mixture within the period of time; detecting, using the plurality of values, a portion of the period of time as associated with a liquid slug; and processing the plurality of values to determine at least one of a water-in-liquid-ratio and a liquid holdup of the multiphase mixture corresponding to the portion. 2. The method of claim 1 , wherein the measurements are repeated at a rate of at least 10 per second. 3. The method of claim 1 , wherein the measurements are repeated at a rate of at least 20 per second. 4. The method of claim 1 , wherein the measurements are repeated at a rate of at least 50 per second. 5. The method of claim 1 , wherein the period of time is at least ten seconds. 6. The method of claim 1 , comprising detecting peak values in the plurality of values and processing the peak values to determine at least the water-in-liquid-ratio of the multiphase mixture. 7. The method of claim 6 , further comprising processing the plurality of values to determine the liquid holdup. 8. The method of claim 1 , wherein repeatedly measuring the electrical property of the multiphase mixture is carried out on at least two different measurement paths through the flowing multiphase mixture, where one measurement path extends through more of a central region and less of an edge region of the flowing mixture than another measurement path, the processing of the measurements includes determining a plurality of values of permittivity or conductivity for each of the at least two different measurement paths, and the method comprises processing the values of permittivity or conductivity for each of the at least two measurement paths to determine a plurality of values of liquid holdup or the water-in-liquid-ratio of the multiphase mixture. 9. The method of claim 1 , wherein measuring the electrical property is carried out using two or more electrical admittance, impedance, capacitance, conductance, or resistance sensing electrodes. 10. The method of claim 1 , wherein measuring the electrical property is carried out using two or more dielectric-sensing RF or microwave antennas. 11. The method of claim 1 , wherein the cross-section is a cross-section of a throat of a Venturi. 12. The method of claim 11 , wherein the multiphase mixture flows substantially vertically through the Venturi. 13. The method of claim 12 , wherein the multiphase mixture is turned through a right-angle bend upstream of the Venturi to promote slug flow of the multiphase mixture. 14. The method according to claim 1 , wherein the number of sensors positioned around the same cross section of the conduit is more than two, so as to measure an electrical property along at least two measurement paths through the flow in the conduit. 15. A method for measuring properties of a flowing multiphase mixture, comprising: repeatedly measuring an electrical property of the multiphase mixture over a period of time, using a plurality of sensors comprising at least two sensing electrodes or at least two microwave antennas, the sensors being positions around a same cross section of a throat of a Venturi through which the multiphase mixture flows substantially vertically; processing the measurements to determine a plurality of values of permittivity or conductivity of a liquid phase of the multiphase mixture within the period of time; processing the plurality of values to determine at least one of a water-in-liquid ratio and a liquid holdup of the multiphase mixture from the permittivity of conductivity, the processing including determining a time-averaged liquid holdup of the multiphase mixture; deriving a gas-volume-fraction from the time-averaged liquid holdup of the multiphase mixture; measuring a differential pressure of the multiphase mixture flowing in the Venturi relative to pressure upstream of the Venturi; determining a total flow rate of the multiphase mixture from the Venturi differential and the mixture density determined from the water-in-liquid-ratio, the liquid holdup or the gas-volume-fraction; and determining a gas flow rate, an oil flow rate and a water flow rate from the total flow rate of the multiphase mixture and from the water-in-liquid-ratio and the gas-volume-fraction. 16. An apparatus for measuring properties of a multiphase flow, comprising: a conduit operable to pass the multiphase flow; at least two sensing electrodes or microwave antennas positioned around a same cross section of the conduit and operable to measure an electrical property along at least one measurement path through the flow in the conduit; and a processor configured to determine from a plurality of measurements of the sensing electrodes or microwave antennas over a period of time, a plurality of values of permittivity or conductivity of a liquid phase of the multiphase mixture, detect, using the plurality of values, a portion of the period of time as associated with a liquid slug, and determine, at least one of a water-in-liquid-ratio and a liquid holdup of the multiphase mixture corresponding to the portion. 17. The apparatus according to claim 16 , wherein the conduit extends vertically and comprises a throat of a Venturi, and the cross section at which the at least two sensing electrodes or microwave antennas are positioned is within the throat of the Venturi. 18. The apparatus according to claim 17 , further comprising a horizontal inlet conduit coupled through a right angle bend to the conduit. 19. The apparatus according to claim 18 , further comprising a differential pressure sensor configured to determine a difference in pressure between the throat of the Venturi and the conduit upstream or downstream of the Venturi. 20. The apparatus according to claim 18 , further comprising a pressure sensor configured to determine pressure at the throat of the Venturi or pressure in the conduit upstream of the Venturi. 21. The apparatus according to claim 18 , further comprising a temperature sensor configured to determine temperature of the multiphase flow in the conduit upstream or downstream of the Venturi. 22. The apparatus according to claim 16 , wherein the number of sensing electrodes or microwave antennas positioned around the same cross section of the conduit is more than two, so as to measure an electrical property along at least two measurement paths through the flow in the conduit.