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Controlling a well injection operation, such as a well fracturing operation, includes identifying a flow characteristic of a fracturing fluid, identifying a flow characteristic of a base fluid used for forming the fracturing fluid, determining an amount of friction reduction change of the fracturing

Controlling a well injection operation, such as a well fracturing operation, includes identifying a flow characteristic of a fracturing fluid, identifying a flow characteristic of a base fluid used for forming the fracturing fluid, determining an amount of friction reduction change of the fracturing fluid, and adjusting the amount of friction reduction of the fracturing fluid to coincide with a selected friction reduction amount. Identifying a flow characteristic may be performed by a rheology measuring device including a measurement tube, a first pressure sensor disposed at a first position on the measurement tube, a second pressure sensor disposed at a second position on the measurement tube, a flow meter disposed at a third position along the measurement tube, a temperature sensor disposed at a fourth location along the measurement tube, and a control unit interconnected to the first and second pressure sensors, the flow meter, and the temperature sensor.

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What is claimed is: 1. A rheology measurement device comprising: a measurement tube; a first pressure sensor disposed at a first position on the measurement tube; a second pressure sensor disposed at a second position on the measurement tube; a flow meter disposed at a third position along the meas

What is claimed is: 1. A rheology measurement device comprising: a measurement tube; a first pressure sensor disposed at a first position on the measurement tube; a second pressure sensor disposed at a second position on the measurement tube; a flow meter disposed at a third position along the measurement tube; a temperature sensor disposed at a fourth location along the measurement tube; and a control unit interconnected to the first and second pressure sensors, the flow meter, and the temperature sensor, the control unit operable to determine a viscosity of a fluid flowing through the measurement tube based at least in part on one or more signals received from the first pressure sensor, the second pressure sensor, the flow meter, and the temperature sensor, wherein the determined viscosity is corrected based at least in part on a bend geometry of the measurement tube. 2. The rheology measurement device according to claim 1, wherein at least a portion of the measurement tube is curved. 3. The rheology measurement device according to claim 2, wherein the curved portion of the measurement tube comprises 1.5 loops. 4. The rheology measurement device according to claim 1 further comprising: an inlet tube; and an outlet tube, wherein internal diameters of the inlet tube, the outlet tube, and the measurement tube are the same. 5. The rheology measurement device according to claim 4, wherein a length of the inlet tube corresponds to a length for establishing a laminar flow of a fluid flowing therein at the first position and wherein a length of the outlet tube corresponds to a length for establishing a laminar flow of a fluid flowing therein at the second position. 6. The rheology measurement device according to claim 1, wherein the first and second pressure sensors comprise a pressure transducer operable to measure a pressure difference of a fluid flowing through the measurement tube. 7. The rheology measurement device according to claim 1 further comprising a pump operable to pump a fluid through the measurement tube. 8. The rheology measurement device according to claim 7, wherein the control unit is operable to determine a fluid flow rate through the tube measurement tube via the flow meter and wherein the control unit is operable to control the pump to establish a flow rate of the fluid through the measurement tube at a selected flow rate. 9. The rheology measurement device according to claim 4, wherein the flow meter is one of an electromagnetic flow meter, a coriolis flow meter, an ultrasonic flow meter, a vortex flow meter, a turbine flow meter, or positive displacement flow meter. 10. The rheology measurement device according to claim 1, wherein the viscosity is determined based at least in part on a shear rate of the fluid at a surface of the measurement tube. 11. The rheology measurement device according to claim 10, wherein the viscosity is determined according to the equation: μ = μ app ⁡ ( γ γ w ) where μ is the viscosity, μapp is the apparent viscosity, γ is a selected shear rate, and γw is the shear rate of the fluid at a surface of the measurement tube. 12. The rheology measurement device according to claim 10, wherein the fluid is a non-Newtonian fluid. 13. The rheology measurement device according to claim 1, wherein the determined viscosity is corrected based on one or more signals received from the temperature sensor. 14. The rheology measurement device according to claim 1, wherein the viscosity is corrected based at least in part on a pressure difference of the fluid flowing through the measurement tube and a flow rate of the fluid flowing through the measurement tube. 15. The rheology measurement device according to claim 14, wherein the viscosity is corrected according to the equation: μ app = K morgan ⁢ K 1 ⁢ Δ ⁢ ⁢ P Q where Kmorgan comprises a constant based on a Reynold's number of the fluid, K1 comprises a meter factor, ΔP is the pressure difference of the fluid flowing through the measurement tube, and Q is the flow rate of the fluid flowing through the measurement tube. 16. The rheology measurement device according to claim 15, wherein Kmorgan is determined through an iterative calculation. 17. The rheology measurement device according claim 14, wherein the viscosity is corrected according to the equation: μ app = K 1 ⁢ Δ ⁢ ⁢ P Q - 1.15 where K1 comprises a meter factor, ΔP is the pressure difference of the fluid flowing through the measurement tube, and Q is the flow rate of the fluid flowing through the measurement tube. 18. A method for measuring a rheological property of a fluid comprising: passing a fluid flow through a measurement tube at a selected flow characteristic; determining a pressure of the fluid flow at a first location along the measurement tube; determining a pressure of the fluid flow at a second location along the measurement tube; determining a pressure difference of the fluid flow between the first and second locations; and determining a viscosity of the fluid passing through the measurement tube based at least in part on the pressure difference and at least one geometrical property of the measurement tube. 19. The method according to claim 18 further comprising: controlling a flow rate of the fluid flow through the measurement tube to maintain the selected flow characteristic. 20. The method according to claim 18, wherein the selected flow characteristic is a shear rate of the fluid at a surface of the measurement tube. 21. The method according to claim 18, wherein the geometrical property of the measurement tube comprises one of: a length of the measurement tube; a diameter of the measurement tube; a shape factor of the measurement tube; or a bend geometry of the measurement tube. 22. A rheology measurement device comprising: a measurement tube; a first pressure sensor disposed at a first position on the measurement tube; a second pressure sensor disposed at a second position on the measurement tube; a flow meter disposed at a third position along the measurement tube; a temperature sensor disposed at a fourth location along the measurement tube; and a control unit interconnected to the first and second pressure sensors, the flow meter, and the temperature sensor, the control unit operable to determine a viscosity of a fluid flowing through the measurement tube based at least in part on one or more signals received from the first pressure sensor, the second pressure sensor, the flow meter, and the temperature sensor, wherein the control unit is operable to determine the viscosity based at least in part on a shear rate of the fluid at a surface of the measurement tube. 23. The rheology measurement device according to claim 22, wherein the viscosity is determined according to the equation: μ = μ app ⁡ ( γ γ w ) where μ is the viscosity, μapp is the apparent viscosity, γ is a selected shear rate, and γw is the shear rate of the fluid at a surface of the measurement tube. 24. The rheology measurement device according to claim 22, wherein the fluid is a non-Newtonian fluid. 25. A rheology measurement device comprising: a measurement tube; a first pressure sensor disposed at a first position on the measurement tube; a second pressure sensor disposed at a second position on the measurement tube; a flow meter disposed at a third position along the measurement tube; a temperature sensor disposed at a fourth location along the measurement tube; and a control unit interconnected to the first and second pressure sensors, the flow meter, and the temperature sensor, the control unit operable to determine a viscosity of a fluid flowing through the measurement tube based at least in part on one or more signals received from the first pressure sensor, the second pressure sensor, the flow meter, and the temperature sensor, wherein the determined viscosity is corrected based on one or more signals received from the temperature sensor.