Vibratory flowmeter and method for average flow rate

What is claimed is: 1. A vibratory flowmeter ( 5 ) for determining an average flow rate of a pulsating flow, the vibratory flowmeter ( 5 ) comprising: a flowmeter assembly ( 10 ) including at least two pickoff sensors ( 170 L, 170 R) and configured to generate at least two vibrational signals; and meter electronics ( 20 ) configured to receive the at least two vibrational signals and generate a flow rate measurement signal, divide the flow rate measurement signal into a series of time periods, with each time period including a single flow peak that is substantially centered in the time period, totalize flow rate measurements of each time period to generate a period sum, and divide the period sum by a time period length to generate a period average flow rate, wherein the meter electronics ( 20 ) outputs a sequence of period average flow rates as an average flow rate signal. 2. The vibratory flowmeter ( 5 ) of claim 1 , with the average flow rate signal comprising an average mass flow rate signal. 3. The vibratory flowmeter ( 5 ) of claim 1 , with the average flow rate signal comprising an average volumetric flow rate signal. 4. The vibratory flowmeter ( 5 ) of claim 1 , wherein the time period length is substantially fixed. 5. The vibratory flowmeter ( 5 ) of claim 1 , wherein the time period length is adaptive. 6. The vibratory flowmeter ( 5 ) of claim 1 , with the meter electronics ( 20 ) being configured to determine periodicity in the flow rate measurement signal. 7. The vibratory flowmeter ( 5 ) of claim 1 , with the meter electronics ( 20 ) being configured to determine periodicity in the flow rate measurement signal, wherein the periodicity is determined by performing a discrete Fourier transform (DFT) on the flow rate measurement signal. 8. The vibratory flowmeter ( 5 ) of claim 1 , with the meter electronics ( 20 ) being configured to determine periodicity in the flow rate measurement signal, wherein the periodicity is determined by scanning for peaks in the flow rate measurement signal. 9. The vibratory flowmeter ( 5 ) of claim 1 , with the meter electronics ( 20 ) being configured to determine periodicity in the flow rate measurement signal, wherein the periodicity is determined by scanning for peaks in the flow rate measurement signal, with the scanning comprising the meter electronics ( 20 ) comparing flow artifacts in the flow rate measurement signal to one or more of a predetermined peak amplitude threshold ( 226 ), a predetermined peak width threshold ( 228 ), or a predetermined minimum peak spacing threshold ( 233 ). 10. The vibratory flowmeter ( 5 ) of claim 1 , with the meter electronics ( 20 ) being configured to determine periodicity in the flow rate measurement signal, wherein the periodicity is determined by performing a windowing analysis on the flow rate measurement signal. 11. A method for determining an average flow rate of a pulsating flow, the method comprising: receiving two or more vibrational response signals from two or more pickoff sensors of a vibratory flowmeter and generating a flow rate measurement signal; dividing the flow rate measurement signal into a series of time periods, with each time period including a single flow peak that is substantially centered in the time period; totalizing flow rate measurements of each time period to generate a period sum; and dividing the period sum by a time period length to generate a period average flow rate, wherein a sequence of period average flow rates is outputted as an average flow rate signal. 12. The method of claim 11 , with the average flow rate signal comprising an average mass flow rate signal. 13. The method of claim 11 , with the average flow rate signal comprising an average volumetric flow rate signal. 14. The method of claim 11 , wherein the time period length is substantially fixed. 15. The method of claim 11 , wherein the time period length is adaptive. 16. The method of claim 11 , with dividing the flow rate measurement signal into a series of time periods comprising determining periodicity in the flow rate measurement signal. 17. The method of claim 11 , with dividing the flow rate measurement signal into a series of time periods comprising determining periodicity in the flow rate measurement signal, wherein the periodicity is determined by performing a discrete Fourier transform (DFT) on the flow rate measurement signal. 18. The method of claim 11 , with dividing the flow rate measurement signal into a series of time periods comprising determining periodicity in the flow rate measurement signal, wherein the periodicity is determined by scanning for peaks in the flow rate measurement signal. 19. The method of claim 11 , with dividing the flow rate measurement signal into a series of time periods comprising determining periodicity in the flow rate measurement signal, wherein the periodicity is determined by scanning for peaks in the flow rate measurement signal, with the scanning comprising comparing flow artifacts in the flow rate measurement signal to one or more of a predetermined peak amplitude threshold, a predetermined peak width threshold, or a predetermined minimum peak spacing threshold. 20. The method of claim 11 , with dividing the flow rate measurement signal into a series of time periods comprising determining periodicity in the flow rate measurement signal, wherein the periodicity is determined by performing a windowing analysis on the flow rate measurement signal.