Conductivity probe fluid property measurement systems and related methods

What is claimed is: 1. An apparatus comprising: a flow meter; a fluid conduit to provide a flow path for a fluid relative to the flow meter; a conductivity probe coupled to the fluid conduit to generate brine conductivity data of the fluid during flow of the fluid through the fluid conduit; and a processor, the flow meter and the conductivity probe to be communicatively coupled to the processor, the processor to modify fluid flow data generated by the flow meter based on the brine conductivity data; wherein the processor is to detect a presence of solid slugs in the flow path of the fluid conduit based on the brine conductivity data, wherein the solid slugs comprise sand. 2. The apparatus of claim 1 , wherein the conductivity probe is coupled to the fluid conduit upstream of the flow meter or downstream of the flow meter. 3. The apparatus of claim 1 , wherein the processor is to modify the fluid flow data by modifying a gamma-ray water attenuation coefficient based on a brine salinity value derived from the brine conductivity data. 4. The apparatus of claim 1 , wherein the conductivity probe is a radio frequency probe. 5. The apparatus of claim 1 , wherein the processor is to determine a bottom-hole pressure based on a change in a brine salinity value of the fluid derived from the brine conductivity data. 6. The apparatus of claim 1 , wherein the processor is to detect a change in a brine salinity value of the fluid over time based on the brine conductivity data, and wherein the processor is to identify a change in reservoir fluid chemistry based on the detection of the change in the brine salinity value. 7. A method comprising: generating brine conductivity data by a conductivity probe during flow of a multiphase fluid through a conduit coupled to a flow meter based on a first set of correction factors and a second set of correction factors for the conductivity probe; applying a correction to fluid flow data generated by the flow meter during flow of the multiphase fluid through the flow meter to generate corrected fluid flow data, the correction based on the brine conductivity data; determining one or more of a holdup or a flow rate of a phase of the multiphase fluid based on the corrected fluid flow data; detecting a change in salinity over time based on the brine conductivity data and identifying a change in reservoir fluid chemistry based on the detection; and identifying a presence of a solid slug in the multiphase fluid flowing through the conduit based on the corrected fluid flow data, wherein the solid slug comprises sand. 8. The method of claim 7 , further including calculating a brine-water salinity value from a complex-permittivity value of the multiphase fluid determined by the conductivity probe, wherein the applying of the correction is further based on the brine-water salinity value. 9. The method of claim 7 , wherein applying the correction to the fluid flow data includes modifying a gamma-ray water attenuation coefficient. 10. The method of claim 7 , further including accessing pressure data and temperature data for the multiphase fluid and calculating a brine salinity value based on the pressure data and the temperature data. 11. The method of claim 7 , wherein determining one or more of the holdup or the flow rate of the phase of the multiphase fluid based on the corrected fluid flow data includes determining the holdup of the phase of the multiphase fluid. 12. A method comprising: applying a correction to fluid flow data generated by a flow meter during flow of a multiphase fluid through the flow meter to generate corrected fluid flow data, the correction based on brine conductivity data generated by a conductivity probe during flow of the multiphase fluid through a conduit coupled to the flow meter; determining one or more of a holdup or a flow rate of a phase of the multiphase fluid based on the corrected fluid flow data; identifying a presence of a solid slug in the multiphase fluid flowing through the conduit based on the corrected fluid flow data, wherein the solid slug comprises sand; detecting a change in salinity over time based on the brine conductivity data by determining a change in slope of the salinity versus square root of the time (T 1/2 ); and identifying a change in reservoir fluid chemistry based on the detection. 13. The method of claim 12 , wherein detecting the change in salinity over time is or comprises detecting the change in salinity during flowback. 14. The method of claim 12 , wherein determining one or more of the holdup or the flow rate of the phase of the multiphase fluid based on the corrected fluid flow data includes determining the holdup of the phase of the multiphase fluid. 15. The method of claim 12 , further comprising updating a density of a brine in the multiphase fluid based on the detected change in salinity; and determining a bottom-hole pressure based on the updated density of the brine. 16. A method comprising: applying a correction to fluid flow data generated by a flow meter during flow of a multiphase fluid through the flow meter to generate corrected fluid flow data, the correction based on brine conductivity data generated by a conductivity probe during flow of the multiphase fluid through a conduit coupled to the flow meter; determining one or more of a holdup or a flow rate of a phase of the multiphase fluid based on the corrected fluid flow data; identifying a presence of a solid slug in the multiphase fluid flowing through the conduit based on the corrected fluid flow data, wherein the solid slug comprises sand; detecting a change in salinity over time during flowback based on the brine conductivity data; and identifying a change in reservoir fluid chemistry based on the detection. 17. The method of claim 16 , further including generating the brine conductivity data based on a first set of correction factors and a second set of correction factors for the conductivity probe. 18. The method of claim 16 , wherein determining one or more of the holdup or the flow rate of the phase of the multiphase fluid based on the corrected fluid flow data includes determining the holdup of the phase of the multiphase fluid. 19. The method of claim 16 , further comprising updating a density of a brine in the multiphase fluid based on the detected change in salinity; and determining a bottom-hole pressure based on the updated density of the brine.