Method and apparatus for determining and controlling a static fluid pressure through a vibrating meter

We claim: 1. A fluid flow system ( 300 ), comprising: a pipeline ( 301 ) with a flowing fluid; a first pressure sensor ( 303 ) located within the pipeline ( 301 ) and determining a first pressure within the pipeline ( 301 ); a vibrating meter ( 5 ) including: a sensor assembly ( 10 ) located within the pipeline ( 301 ) proximate to and in fluid communication with the first pressure sensor ( 303 ); and a meter electronics ( 20 ) in electrical communication with the sensor assembly ( 10 ) and configured to receive one or more sensor signals ( 210 ) and measure one or more flow characteristics; a system controller ( 310 ) in electrical communication with the first pressure sensor ( 303 ) and the meter electronics ( 20 ), and configured to: receive the first pressure measurement from the first pressure sensor ( 303 ); receive the one or more flow characteristics from the meter electronics ( 20 ); determine a static pressure of the fluid within the sensor assembly based on the first pressure measurement and the one or more flow characteristics; determine if the fluid contains at least some gas based on the static pressure of the fluid; determine the fluid contains at least some gas if the static pressure of the fluid is outside a threshold value or band based upon a saturation pressure of the fluid; determine a drive gain of the vibrating meter; compare the drive gain to a drive gain threshold value, and determine the static pressure is outside the threshold value or band if the drive gain exceeds the drive gain threshold value; and adjust the fluid flow if the static pressure of the fluid is outside the threshold value or band, wherein the adjustment is at least one of increasing a pipeline line pressure and decreasing a fluid flow rate. 2. The fluid flow system ( 300 ) of claim 1 , wherein the system controller ( 310 ) is further configured to determine the saturation pressure based on a measured temperature and density of the fluid. 3. A meter electronics ( 20 ) for a vibrating sensor ( 10 ) located within a pipeline ( 301 ) with a flowing fluid and in fluid communication with one or more pressure sensors ( 303 , 304 ), the meter electronics ( 20 ) configured to: measure one or more flow characteristics of the fluid flowing through the sensor assembly ( 10 ); determine a drive gain of the vibrating sensor; receive a first pressure signal ( 213 ) from one or more pressure sensors indicating the pressure of the fluid in the pipeline ( 301 ); determine a static pressure of the fluid within the sensor assembly based on the first pressure signal ( 213 ) and the one or more measured flow characteristics; compare the drive gain to a drive gain threshold value, and determine the static pressure is outside a threshold value or band if the drive gain exceeds the drive gain threshold value; and determine if the fluid contains at least some gas based on if the static pressure of the fluid is outside a threshold value or range; adjust the fluid flow if the static pressure of the fluid is outside the threshold value or band, wherein adjusting the fluid flow is at least one of increasing the pipeline line pressure and decreasing a fluid flow rate. 4. The meter electronics ( 20 ) of claim 3 , wherein the threshold value or band is based upon a saturation pressure of the fluid. 5. The meter electronics ( 20 ) of claim 4 , further configured to determine the saturation pressure based on a measured temperature and density of the fluid. 6. A method for operating a fluid flow system including a fluid flowing through a pipeline, a first pressure sensor located within the pipeline, and a vibrating meter including a sensor assembly in fluid communication with the first pressure sensor, the method comprising steps of: measuring a pressure of the fluid within the pipeline using the first pressure sensor; measuring one or more flow characteristics of the fluid using the vibrating meter; determining a static pressure of the fluid within the sensor assembly based on the measured pressure of the fluid within the pipeline and the one or more flow characteristics; and determining if the fluid contains at least some gas based on the static pressure of the fluid; determining the fluid contains at least some gas if the static pressure of the fluid is outside a threshold value or band; determining a drive gain of the vibrating meter; comparing the drive gain to a drive gain threshold value; and determining the static pressure is outside a threshold value or band if the drive gain exceeds the drive gain threshold value; and adjusting the fluid flow if the static pressure of the fluid is outside the threshold value or band by at least one of increasing a pipeline line pressure and decreasing a fluid flow rate based upon a saturation pressure of the fluid. 7. The method of claim 6 , further comprising a step of determining the saturation pressure based on a measured temperature and density of the fluid.