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A flow system based on pulsating mechanism that has better accuracy compared to conventional vortex meters due to the fact that the pulsations generated have increased signal response and lower frequency, both of which are favorable for a high accuracy measurement. Certain embodiments include a hous

A flow system based on pulsating mechanism that has better accuracy compared to conventional vortex meters due to the fact that the pulsations generated have increased signal response and lower frequency, both of which are favorable for a high accuracy measurement. Certain embodiments include a housing, a bluff body, an orifice plate, and means for detecting a pulsating frequency of pulsating flow and determining the fluid flow rate based on the detected pulsating frequency. In certain embodiments, the housing can include an outer shell, an inlet, and an outlet.

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1. A pulsating flow meter for determining a fluid flow rate within a process fluid flow conduit configured to convey process fluid in a downstream direction, the pulsating flow meter comprising: a housing, the housing defining an interior of the housing having a longitudinal housing length and a rad

1. A pulsating flow meter for determining a fluid flow rate within a process fluid flow conduit configured to convey process fluid in a downstream direction, the pulsating flow meter comprising: a housing, the housing defining an interior of the housing having a longitudinal housing length and a radial housing diameter, the housing further defining a longitudinal axis, the housing having: an outer shell,an inlet for receiving process fluid from the process fluid flow conduit into the interior of the housing,an outlet for delivering process fluid from the interior of the housing to the process fluid flow conduit, anda bluff body disposed within the housing;an orifice plate disposed within the housing and having an orifice, the orifice plate located down stream of the bluff body, the orifice plate located a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency; andmeans to detect the pulsating frequency of the pulsating flow and determine the fluid flow rate based on the detected pulsating frequency. 2. The pulsating flow meter as claimed in claim 1, further comprising means for coupling the pulsating flow meter in fluid connection with the process fluid flow conduit. 3. The pulsating flow meter as claimed in claim 1, wherein the means to detect the pulsating frequency and determine the fluid flow rate based on the detected pulsating frequency further comprises: a sensor operable to detect the pulsating frequency of the pulsating flow by sensing pressure differentials resulting from the pulsating flow;a transmitter in communication with the sensor, the transmitter operable to generate a flow measurement signal based on the pressure differentials sensed by the sensor; anda processor in communication with the transmitter, the processor operable to receive the flow measurement signal and determine the fluid flow rate. 4. The pulsating flow meter as claimed in claim 3, further comprising a display means in communication with the processor, the display means operable to display the fluid flow rate. 5. The pulsating flow meter as claimed in claim 1, wherein the bluff body is substantially cylindrical. 6. The pulsating flow meter as claimed in claim 1, wherein the bluff body has a diameter of approximately 10 to 20 percent of the housing diameter. 7. The pulsating flow meter as claimed in claim 1, wherein the bluff body has a diameter of approximately 16 percent of the housing diameter. 8. The pulsating flow meter as claimed in claim 1, wherein the bluff body is disposed substantially transverse the longitudinal axis. 9. The pulsating flow meter as claimed in claim 1, the orifice plate further comprising an orifice plate thickness, wherein the orifice plate thickness is within the range of 2 to 4 percent of the housing diameter. 10. The pulsating flow meter as claimed in claim 1, the orifice plate further comprising an orifice plate diameter, wherein the orifice plate diameter is substantially equal to the housing diameter. 11. The pulsating flow meter as claimed in claim 1, wherein the orifice comprises an orifice diameter that is about 60 percent of the housing diameter. 12. The pulsating flow meter as claimed in claim 1, wherein the defined distance between the orifice plate and the bluff body is a distance of about 50 percent of the housing diameter. 13. The pulsating flow meter as claimed in claim 1, wherein the housing diameter is about 25 percent of the housing length. 14. The pulsating flow meter as claimed in claim 1, wherein the bluff body is located at a distance from the inlet of approximately 10 percent of the housing length. 15. The pulsating flow meter as claimed in claim 1, wherein the bluff body is disposed within the housing such that the bluff body extends from the outer shell and through the axis of the housing. 16. The pulsating flow meter as claimed in claim 1, wherein the orifice is centered about the axis of the housing. 17. The pulsating flow meter as claimed in claim 1, wherein the housing is substantially cylindrical. 18. The pulsating flow meter as claimed in claim 1, wherein the housing diameter remains substantially constant about the housing length. 19. The pulsating flow meter as claimed in claim 1, further comprising the absence of a tapered section down stream of the bluff body. 20. A pulsating flow meter for determining a fluid flow rate within a process fluid flow conduit configured to convey process fluid in a downstream direction, the pulsating flow meter comprising: a housing having an inner volume, an inlet for receiving process fluid from the process fluid flow conduit into the inner volume, and an outlet for delivering the process fluid from the inner volume into the process fluid flow conduit, wherein the housing defines the interior of the housing having a longitudinal housing length and a radial housing diameter, the housing further defining a longitudinal axis, wherein the housing diameter is about 25 percent of the housing length;a bluff body disposed within the housing, the bluff body having a substantially cylindrical shape, wherein the bluff body has a diameter of approximately 16 percent of the housing diameter, wherein the bluff body is located at a distance from the inlet of approximately 10 percent of the housing length;an orifice plate disposed within the housing, the orifice plate comprising an orifice, an orifice plate thickness, and an orifice plate diameter, wherein the orifice plate is located down stream of the bluff body at a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on the process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency, wherein the orifice thickness is within the range of 2 to 4 percent of the housing diameter, wherein the orifice plate diameter is substantially equal to the housing diameter, wherein the orifice is about 60 percent of the housing diameter, wherein the defined distance between the orifice plate and the bluff body is a distance of about 50 percent of the housing diameter; andmeans to detect the pulsating frequency of the pulsating flow and determine the fluid flow rate based on the detected pulsating frequency. 21. The pulsating flow meter as claimed in claim 20, wherein the bluff body is disposed within the housing such that the bluff body extends through the axis of the housing. 22. The pulsating flow meter as claimed in claim 20, wherein the orifice is centered about the axis of the housing. 23. The pulsating flow meter as claimed in claim 20, wherein the housing is substantially cylindrical. 24. The pulsating flow meter as claimed in claim 20, wherein the housing diameter remains substantial constant about the housing length. 25. The pulsating flow meter as claimed in claim 20, further comprising the absence of a tapered section down stream of the bluff body. 26. A pulsating flow meter for determining a fluid flow rate of at least one phase of a two or three phase fluid flow, the pulsating flow meter comprising: a housing;a bluff body disposed transversally within the housing; andan orifice plate disposed within the housing and having an orifice, the orifice plate located down stream of the bluff body, the orifice plate located a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency, the pulsating frequency having a pulsating amplitude, wherein the pulsating flow meter is adapted to use the pulsating frequency and the pulsating amplitude to determine the fluid flow rate. 27. The pulsating flow meter as claimed in claim 26, wherein the pulsating flow meter is calibrated with correlation data for a plurality of different fluid phase compositions and a plurality of different total volume fluid flow rates having corresponding pulsating frequency and pulsating amplitude values. 28. A method for determining a fluid flow rate within a process fluid flow conduit, the method comprising the steps of: flowing a process fluid through a pulsating flow meter that is operable to impart a pulsating flow on the process fluid, the pulsating flow having a pulsating frequency, the pulsating frequency having a pulsating amplitude;detecting the pulsating frequency; anddetermining the fluid flow rate based upon the detected pulsating frequency. 29. The method as claimed in claim 28, wherein the pulsating flow meter comprises: a housing, the housing defining an interior of the housing having a longitudinal housing length and a radial housing diameter, the housing further defining a longitudinal axis, the housing having: an outer shell,an inlet for receiving process fluid from the process fluid flow conduit into the interior of the housing,an outlet for delivering process fluid from the interior of the housing to the process fluid flow conduit, anda bluff body disposed within the housing;an orifice plate disposed within the housing and having an orifice, the orifice plate located down stream of the bluff body, the orifice plate located a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency; andmeans to detect the pulsating frequency of the pulsating flow and determine the fluid flow rate based on the detected pulsating frequency. 30. The method as claimed in claim 28, wherein the pulsating flow meter comprises: a housing having an inner volume, an inlet for receiving process fluid from the process fluid flow conduit into the inner volume, and an outlet for delivering the process fluid from the inner volume into the process fluid flow conduit, wherein the housing defines the interior of the housing having a longitudinal housing length and a radial housing diameter, the housing further defining a longitudinal axis, wherein the housing diameter is about 25 percent of the housing length;a bluff body disposed within the housing, the bluff body having a substantially cylindrical shape, wherein the bluff body has a diameter of approximately 16 percent of the housing diameter, wherein the bluff body is located at a distance from the inlet of approximately 10 percent of the housing length;an orifice plate disposed within the housing, the orifice plate comprising an orifice, an orifice plate thickness, and an orifice plate diameter, wherein the orifice plate is located down stream of the bluff body at a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on the process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency, wherein the orifice thickness is within the range of 2 to 4 percent of the housing diameter, wherein the orifice plate diameter is substantially equal to the housing diameter, wherein the orifice is about 60 percent of the housing diameter, wherein the defined distance between the orifice plate and the bluff body is a distance of about 50 percent of the housing diameter; andmeans to detect the pulsating frequency of the pulsating flow and determine the fluid flow rate based on the detected pulsating frequency. 31. The method as claimed in claim 28, wherein the pulsating flow meter comprises: a housing;a bluff body disposed transversally within the housing; andan orifice plate disposed within the housing and having an orifice, the orifice plate located down stream of the bluff body, the orifice plate located a defined distance from the bluff body such that the orifice plate is operable to impart a pulsating flow on process fluid as a result of passing through the orifice, the pulsating flow having a pulsating frequency, the pulsating frequency having a pulsating amplitude, wherein the pulsating flow meter is adapted to use the pulsating frequency and the pulsating amplitude to determine the fluid flow rate.