Vibratory flowmeter and methods and diagnostics for meter verification

What is claimed is: 1. A vibratory flowmeter ( 5 ) for meter verification, the vibratory flowmeter ( 5 ) comprising: a flowmeter assembly ( 10 ) including one or more flowtubes ( 130 , 130 ′) and first and second pickoff sensors ( 170 L, 170 R); a driver ( 180 ) configured to vibrate the one or more flowtubes ( 130 , 130 ′); and meter electronics ( 20 ) coupled to the first and second pickoff sensors ( 170 L, 170 R) and coupled to the driver ( 180 ), with the meter electronics ( 20 ) being configured to: vibrate the flowmeter assembly ( 10 ) in a single mode using the driver ( 180 ), determine a single mode current ( 230 ) of the driver ( 180 ) and determine first and second response voltages ( 231 ) generated by the first and second pickoff sensors ( 170 L, 170 R), respectively, compute frequency response functions for the determined first and second response voltages ( 231 ) from the determined single mode current ( 230 ), fit the generated frequency response functions to a pole-residue-residual flexibility model to compute a residual flexibility value ( 218 ), and verify proper operation of the vibratory flowmeter ( 5 ) using the residual flexibility value ( 218 ). 2. The vibratory flowmeter of claim 1 , wherein the verify operation of the vibratory flowmeter using the residual flexibility value includes determining a difference between the residual flexibility value ( 218 ) and a baseline residual flexibility ( 220 ), and wherein the difference is compared to a predetermined residual flexibility range ( 221 ). 3. The vibratory flowmeter of claim 1 , with the meter electronics ( 20 ) being further configured to compare the residual flexibility value ( 218 ) to a predetermined residual flexibility range ( 221 ), generate a verification indication for the vibratory flowmeter ( 5 ) if the residual flexibility value ( 218 ) falls within the predetermined residual flexibility range ( 221 ), and generate a non-verification indication for the vibratory flowmeter ( 5 ) if the residual flexibility value ( 218 ) does not fall within the predetermined residual flexibility range ( 221 ). 4. The vibratory flowmeter of claim 1 , with the meter electronics ( 20 ) being further configured to compute a difference of residual flexibility values at the first and second pickoff sensors ( 170 L and 170 R), and verify proper operation of the vibratory flowmeter ( 5 ) using the computed difference of the residual flexibility values. 5. The vibratory flowmeter of claim 4 , wherein the verify operation of the vibratory flowmeter using the computed difference of the residual flexibility values includes determining a difference between the computed difference of the residual flexibility values and a baseline residual flexibility difference ( 226 ), and wherein the determined difference is compared to a predetermined residual flexibility difference range ( 227 ). 6. The vibratory flowmeter of claim 4 , with the meter electronics ( 20 ) being further configured to: compare the computed difference of the residual flexibility values to a predetermined residual flexibility difference range ( 227 ), generate a verification indication for the vibratory flowmeter ( 5 ) if the computed difference residual flexibility value falls within the predetermined residual flexibility difference range ( 227 ), and generate a non-verification indication for the vibratory flowmeter ( 5 ) if the computed difference residual flexibility value does not fall within the predetermined residual flexibility difference range ( 227 ). 7. A meter verification method for a vibratory flowmeter, with the method comprising: vibrating a flowmeter assembly of the vibratory flowmeter in a single mode using a driver; determining a single mode current of the driver and determining first and second single mode response voltages generated by first and second pickoff sensors, respectively; computing frequency response functions for the determined first and second response voltages from the determined single mode current; fitting the generated frequency response functions to a pole-residue-residual flexibility model to compute a residual flexibility value ( 218 ); and verifying proper operation of the vibratory flowmeter ( 5 ) using the residual flexibility value ( 218 ). 8. The meter verification method of claim 7 , wherein the verifying operation of the vibratory flowmeter using the residual flexibility value includes determining a difference between the residual flexibility value ( 218 ) and a baseline residual flexibility ( 220 ), and wherein the difference is compared to a predetermined residual flexibility range ( 221 ). 9. The meter verification method of claim 7 , with the meter electronics ( 20 ) further comprising: comparing the residual flexibility value ( 218 ) to a predetermined residual flexibility range ( 221 ), generating a verification indication for the vibratory flowmeter ( 5 ) if the residual flexibility value ( 218 ) falls within the predetermined residual flexibility range ( 221 ), and generating a non-verification indication for the vibratory flowmeter ( 5 ) if the residual flexibility value ( 218 ) does not fall within the predetermined residual flexibility range ( 221 ). 10. The meter verification method of claim 7 , with the meter electronics ( 20 ) further comprising computing a difference of residual flexibility values at the first and second pickoff sensors ( 170 L and 170 R), and verifying proper operation of the vibratory flowmeter ( 5 ) using the computed difference of the residual flexibility values. 11. The meter verification method of claim 7 , wherein the verify operation of the vibratory flowmeter using the computed difference of the residual flexibility values includes: determining a difference between the computed difference of the residual flexibility values and a baseline residual flexibility difference ( 226 ), and wherein the determined difference is compared to a predetermined residual flexibility difference range ( 227 ). 12. The meter verification method of claim 10 , with the meter electronics ( 20 ) further comprising: comparing the computed difference of the residual flexibility values to a predetermined residual flexibility difference range ( 227 ), generating a verification indication for the vibratory flowmeter ( 5 ) if the computed difference residual flexibility value falls within the predetermined residual flexibility difference range ( 227 ), and generating a non-verification indication for the vibratory flowmeter ( 5 ) if the computed difference of the residual flexibility values does not fall within the predetermined residual flexibility difference range ( 227 ).