Multiphase flowmeters and related methods

The invention claimed is: 1. An apparatus comprising: a flowmeter configured to monitor each phase of a multiphase fluid flowing through a fluid conduit, wherein the multiphase fluid comprises at least water, oil, and gas; the fluid conduit, wherein the fluid conduit is configured to provide a flow path for the multiphase fluid relative to the flowmeter; a piezoelectric acoustic sensor coupled to the fluid conduit and configured to generate sensor data indicative of at least one of: (i) a presence of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit or an absence of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit, or (ii) a mass flow rate of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit; and a processor communicatively coupled to the piezoelectric acoustic sensor, the processor configured to: select a first linear attenuation triangle of the flowmeter or a second linear attenuation triangle of the flowmeter, the selection being based on the sensor data of the piezoelectric acoustic sensor; and selectively determine flow rates for the phases of the multiphase fluid based on (i) data generated by the flowmeter and (ii) the selected first linear attenuation triangle of the flowmeter or second linear attenuation triangle of the flowmeter. 2. The apparatus of claim 1 , wherein the piezoelectric acoustic sensor is disposed in the flow path of the fluid conduit. 3. The apparatus of claim 2 , wherein the piezoelectric acoustic sensor is disposed downstream of the flowmeter. 4. The apparatus of claim 1 , further comprising a water conductivity sensor configured to generate data indicative of a change in salinity of the water in the multiphase fluid during flow of the multiphase fluid through the fluid conduit. 5. The apparatus of claim 1 , wherein if the sensor data indicates the absence of solids in the multiphase fluid, the processor is configured to determine an oil flow rate value, a water flow rate value, and a gas flow rate value of the multiphase fluid based on the first linear attenuation triangle of the flowmeter. 6. An apparatus, comprising: a flowmeter; a fluid conduit configured to provide a flow path for a fluid relative to the flowmeter; a sensor coupled to the fluid conduit and configured to generate sensor data indicative of at least one of: (i) a presence of solids in the fluid during flow of the fluid through the fluid conduit or an absence of solids in the fluid during flow of the fluid through the fluid conduit, or (ii) a mass flow rate of solids in the fluid during flow of the fluid through the fluid conduit; and a processor communicatively coupled to the sensor, the processor configured to selectively determine flow rates for one or more phases of the fluid based on data generated by (i) the flowmeter and (ii) a first algorithmic mode or a second algorithmic mode selected based on the sensor data, wherein if the sensor data indicates the presence of solids in the fluid, the processor is configured to determine a solid flow rate value, a gas flow rate value, and a liquid flow rate value based on the second algorithmic mode. 7. The apparatus of claim 6 , wherein the processor is further configured to determine a water flow rate value and an oil flow rate value based on the liquid flow rate value and a water-in-liquid ratio value. 8. A method comprising: monitoring, using a flowmeter, each phase of a multiphase fluid flowing through a fluid conduit, wherein the multiphase fluid comprises at least water, oil, and gas; generating, using a piezoelectric acoustic sensor, sensor data indicative of at least one of: (ii) a presence of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit or an absence of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit, or (ii) a mass flow rate of solids in the multiphase fluid during flow of the multiphase fluid through the fluid conduit; receiving, at a processor, the sensor data; automatically selecting, by the processor, a first linear attenuation triangle of the flowmeter or a second linear attenuation triangle of the flowmeter, the selection being based on the sensor data; receiving, at the processor, flowmeter data of each of the phases of the multiphase fluid, the flowmeter data generated during the flow of the multiphase fluid through the fluid conduit; and determining, by the processor, flow rates of the phases of the multiphase fluid based on (i) the flowmeter data and (ii) the selected first linear attenuation triangle of the flowmeter or second linear attenuation triangle of the flowmeter. 9. The method of claim 8 , further comprising, if the sensor data is indicative of the presence or the mass flow rate of solids in the multiphase fluid, determining a value of a solids-in-liquid ratio for the multiphase fluid. 10. The method of claim 8 , wherein the sensor data comprises first sensor data generated for a first time interval, the first sensor data being indicative of at least one of: the presence of solids in the multiphase fluid or the mass flow rate of solids in the multiphase fluid, wherein the determining the flow rates comprises determining first flow rates for the first time interval based on the first linear attenuation triangle of the flowmeter, and wherein the method further comprises: accessing second sensor data generated for a second time interval after the first time interval, the second sensor data being indicative of the absence of solids in the multiphase fluid; switching from the first linear attenuation triangle of the flowmeter to the second linear attenuation triangle of the flowmeter based on the second sensor data; and determining the flow rates of the phases of the multiphase fluid based on the second linear attenuation triangle of the flowmeter for the second time interval. 11. The method of claim 8 , wherein the sensor data comprises first sensor data generated for a first time interval, the first sensor data being indicative of the absence of solids in the multiphase fluid, and wherein the method further comprises: determining a value of a water-in-liquid ratio of the multiphase fluid for the first time interval; accessing second sensor data generated for a second time interval after the first time interval, the second sensor data being indicative of at least one of; the presence of solids in the multiphase fluid or the mass flow rate of solids in the multiphase fluid; and using the water-in-liquid ratio to determine at least one of; a water flow rate value or an oil flow rate value for the multiphase fluid for the second time interval. 12. The method of claim 8 , further comprising adjusting a value of a water-in-liquid ratio value based on a change in sensor data indicative of the absence of solids in the multiphase fluid. 13. The method of claim 8 , wherein the first linear attenuation triangle of the flowmeter and the second linear attenuation triangle of the flowmeter include respective linear attenuation triangles for the multiphase fluid including three phases and the multiphase fluid including four phases. 14. The method of claim 13 , further comprising determining a liquid point in the second linear attenuation triangle during flow of the multiphase fluid through the fluid conduit. 15. The method of claim 14 , further comprising: accessing water conductivity sensor data generated by a water conductivity sensor coupled to the fluid conduit, the water conductivity sensor data being indicative of a chan