Volume fraction meter for multiphase fluid flow

What is claimed is: 1. A volume fraction meter comprising a flow meter, a flow line, and a strain gauge, wherein: the flow meter is coupled to and positioned upstream from a turned portion of the flow line, with respect to a flow direction, and is configured to measure a volumetric flow rate of a multiphase fluid flowing in the flow direction through the flow line; the flow line comprises a nozzle opening downstream of the turned portion of the flow line; and the strain gauge is coupled to the flow line between the flow meter and the turned portion of the flow line, and is configured to measure a bending strain on the flow line upon discharge of the multiphase fluid through the nozzle opening, such that the bending strain and the volumetric flow rate provide inputs for determining a mixture density of the multiphase fluid. 2. The volume fraction meter of claim 1 , wherein the flow line comprises a uniform cross sectional area between the flow meter and the nozzle opening. 3. The volume fraction meter of claim 1 , wherein the bending strain and the volumetric flow rate provide inputs for determining a discharge force of the multiphase fluid through the nozzle opening and the discharge force provides an input for determining the mixture density of the multiphase fluid. 4. The volume fraction meter of claim 1 , wherein the flow meter and the strain gauge are communicatively coupled to a computing device configured to determine the mixture density of the multiphase fluid and, based on the mixture density, determine a volume fraction of a liquid portion and a gas portion in the multiphase fluid. 5. The volume fraction meter of claim 1 , wherein the strain gauge is coupled to the flow line in alignment with the flow direction. 6. The volume fraction meter of claim 1 , wherein the strain gauge comprises a Wheatstone bridge wiring arrangement. 7. The volume fraction meter of claim 1 , wherein the strain gauge is coupled to the flow line fluidly separate from the flow line. 8. The volume fraction meter of claim 1 , wherein the flow meter comprises a positive displacement flow meter. 9. The volume fraction meter of claim 1 , wherein: the flow line comprises a uniform cross sectional area between the flow meter and the nozzle opening; and the flow meter and the strain gauge are communicatively coupled to a computing device configured to determine a discharge force of the multiphase fluid through the nozzle opening based on the bending strain and the volumetric flow rate, determine the mixture density based on the volumetric flow rate and the discharge force, and determine a volume fraction of a liquid portion and a gas portion in the multiphase fluid based on the mixture density. 10. A flow system comprising a volume fraction meter, a primary flow line, and a secondary flow line, and a volume fraction meter comprising a flow meter and a strain gauge, wherein: the secondary flow line is fluidly coupled to the primary flow line and comprises a nozzle opening and a turned portion that is upstream of the nozzle opening with respect to a flow direction; the flow meter is coupled to the secondary flow line upstream of the turned portion of the secondary flow line, with respect to the flow direction, and is configured to measure a volumetric flow rate of a multiphase fluid flowing in the flow direction through the flow line; and the strain gauge is coupled to the secondary flow line between the flow meter and the turned portion of the flow line, and is configured to measure a bending strain on the secondary flow line upon discharge of the multiphase fluid through the nozzle opening, such that the bending strain and the volumetric flow rate provide inputs for determining a mixture density of the multiphase fluid. 11. The flow system of claim 10 , wherein the secondary flow line comprises a uniform cross sectional area between the flow meter and the nozzle opening. 12. The volume fraction meter of claim 10 , wherein the secondary flow line further comprises a return arm fluidly coupled to the primary flow line at a fluid outlet, wherein the return arm comprises a return opening aligned with the nozzle opening. 13. The volume fraction meter of claim 12 , further comprising a collection chamber coupled to the return arm. 14. The volume fraction meter of claim 10 , wherein a cross sectional area of the primary flow line is greater than a cross sectional area of the secondary flow line. 15. A method of determining a volume fraction of a liquid portion and a gas portion in a multiphase fluid, the method comprising: measuring a volumetric flow rate of a multiphase fluid flowing through a flow line in a flow direction using a flow meter coupled to the flow line, wherein the flow line comprises a turned portion, the flow meter is positioned upstream the turned portion with respect to the flow direction, and the flow line comprises a nozzle opening downstream the turned portion; measuring a bending strain on the flow line upon discharge of the multiphase fluid through the nozzle opening using a strain gauge coupled to the flow line between the flow meter and the turned portion; determining a mixture density of the multiphase fluid based on the volumetric flow rate and the bending strain; and determining a volume fraction of a liquid portion and a gas portion of the multiphase fluid based on the mixture density of the multiphase fluid. 16. The method of claim 15 , further comprising determining a discharge force of the multiphase fluid through the nozzle opening based on the volumetric flow rate and the bending strain, wherein the discharge force provides an input for determining the mixture density of the multiphase fluid. 17. The method of claim 16 , wherein the discharge force deflects the flow line in a discharge force direction thereby applying the bending strain to the flow line. 18. The method of claim 17 , wherein the discharge force direction is opposite the flow direction at the nozzle opening. 19. The method of claim 15 , wherein: the flow line comprises a primary flow line and a secondary flow line; the secondary flow line is fluidly coupled to the primary flow line at a fluid inlet; the secondary flow line comprises the nozzle opening and the turned portion; the flow meter and the strain gauge are coupled to the secondary flow line upstream the turned portion; and the strain gauge measures a bending strain on the secondary flow line upon discharge of the multiphase fluid through the nozzle opening. 20. The method of claim 15 , wherein the multiphase fluid comprises a wet gas.