METHOD FOR OPERATING A FLOWMETER AND FLOWMETER

Abstract

A method for operating a flowmeter for measuring the flow of a flowing medium through a pipe, wherein the flowmeter has a measuring unit for determining individual measured values of the flow and an error unit for determining the measurement uncertainty of the individual measured values. Determination of the individual measured values is carried out using a measuring frequency. A method for operating a flowmeter, which improves the quality of measurement is achieved in that a present measurement uncertainty is determined for each individual measured value by the error unit and by the measurement uncertainties from static and dynamic error sources being linked to one another by error propagation for determining the present measurement uncertainty.

Claims

1. Method for operating a flowmeter for measuring the flow of a flowing medium through a pipe, comprising: using a measuring unit for determining individual measured values of flow of a medium through a measuring tube, using an error unit for determining measurement uncertainty of individual measured values, wherein the uncertainty measurement determination of individual measured values is carried out at a measuring frequency and using uncertainties from static and dynamic error sources, wherein a present measurement uncertainty is determined for each individual measured value by the error unit, wherein measurement uncertainties from static and dynamic error sources are linked to one another by error propagation for determining the present measurement uncertainty, and wherein the determined measurement uncertainties are presented in a manner enabling the accuracy of the measured values of flow to be determined.

2. Method according to claim 1, wherein the measuring unit measures volume flow or mass flow of the medium.

3. Method according to claim 1, wherein the static sources used in determining the present measurement uncertainty include at least one of a measurement uncertainty of calibration, a measurement uncertainty of reproducibility, a measurement uncertainty of long-term reproducibility and a measurement uncertainty of linearity of the flowmeter.

4. Method according to claim 1, wherein at least one of a zero point stability of the flowmeter and a variation of at least one operating parameter is used as dynamic error source in determining the present measurement uncertainty.

5. Method according to claim 1, wherein each individual measured value and an associated present measurement uncertainty are displayed via a display unit manner enabling the accuracy of the measured values of flow to be determined.

6. Method according to claim 1, wherein the measuring frequency lies between 20 Hz and 500 Hz.

7. Method according to claim 1, wherein at least one additional sensor unit is used for detecting at least one present operating parameter and that the at least one additional sensor unit forwards the measured values of the present operating parameter at least to the error unit.

8. Method according to claim 1, wherein at least one value of an operating parameter is input via an interface and wherein the interface forwards the at least one value of the operating parameter to at least the error unit.

9. Method according to claim 1, wherein a maximum measurement uncertainty is set, wherein the present measurement uncertainty is compared by the flowmeter to a maximum measurement uncertainty and wherein a warning is issued when the maximum measurement uncertainty has been exceeded.

10. Method according to claim 1, wherein a counter outputs a total flow of a temporally limited measurement operation and wherein the counter outputs a total measurement uncertainty taking into account the present measurement uncertainty.

11. Flowmeter for measuring the flow of a medium flowing through a pipe, comprising: a measuring unit for determining individual measured values of the flow and an error unit for determining measurement uncertainty of individual measured values, wherein the determination of the individual measured values is carried out using a measuring frequency, wherein the error unit is adapted for determining a present measurement uncertainty for each individual measured value, wherein the error unit links the measurement uncertainties from static and dynamic error sources to one another by error propagation for determining the present measurement uncertainty, and wherein means for presenting the determined measurement uncertainties in a manner enabling the accuracy of the measured values of flow to be determined is provided.

12. Flowmeter according to claim 11, wherein the means for presenting comprises at least one of a display unit for displaying the individual measured values and associated present measurement uncertainties and an interface for external output.

13. Flowmeter according to claim 11, further comprising at least one of an additional sensor unit for detecting at least one present operating parameter and an interface for inputting of at least one present operating parameter.

14. Flowmeter according to claim 11, further comprising a counter, wherein the counter has means for outputting total flow of a temporally limited measurement operation and for outputting a total measurement uncertainty for the measurement operation taking into account the present measurement uncertainties.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0055] FIG. 1 is a schematic depiction of an embodiment of a method according to the invention,

[0056] FIG. 2 is a schematic depiction of an embodiment of a flowmeter according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0057] An embodiment is shown in FIG. 1 of a method 1 according to the invention for operating a flowmeter 2 for measuring the flow of a medium flowing through a pipe 3, wherein the flowmeter 2 has a measuring unit 4 for determining individual measured values 6 of the flow and an error unit 5 for determining the present measurement uncertainty 7 of the individual measured values 6, and wherein the determination of individual measured values 6 is carried out at a measuring frequency of 100 Hz. Additionally, the flowmeter 2 has a display unit 8 for displaying the individual measured values 6 and the associated present measurement uncertainty 7 and a sensor unit 9 for detecting the operating parameters temperature and pressure. Finally, the flowmeter 2 also has a counter 10 that integrates the individual measured values 6 over a limited amount of time, i.e., during a temporally limited measurement operation, and thus, outputs the total flow of a temporally limited measurement operation, and wherein the counter outputs a total measurement uncertainty for the total flow using a weighted average formation of the present measurement uncertainties 7.

[0058] In a first step 11, the determination of the flow is carried out by the measuring unit 4. Simultaneously, the relevant operating parameters are measured by the sensor unit 9 and the measured values of the operating parameters are forwarded 12 to the error unit 5. In a next step, 13, the error unit 5 determines a present measurement uncertainty 7 for the individual measured value 6 of the flow. Additionally, the measurement uncertainties resulting from calibration, reproducibility, long-term reproducibility and linearity are stored in the error unit 5. These measurement uncertainties are linked to the measurement uncertainties resulting from the variation of temperature and pressure using error propagation. For this purpose the individual measured value 6 of the flow is transferred to the error unit 5. The present measurement uncertainty 7 determined in this manner is then compared 14 to a maximum measurement uncertainty set before start-up of the flowmeter. If the present measurement uncertainty 7 exceeds the maximum measurement uncertainty, a warning is issued.

[0059] Both the individual measured value 6 of the flow and the associated present measurement uncertainty 7 as well as a warning in the case of the maximum measurement uncertainty being exceeded are forwarded to the display unit 8 and output 15 by it. It is then possible for the user to individually assess the reliability of the output individual measured values 6, whereby the quality of the measurement is substantially improved.

[0060] Furthermore, both the individual measured value 6 as well as the present measurement uncertainty 7 are transmitted 16 to the counter 10, which takes these values into account in the manner described above for determining a total flow and a total measurement uncertainty.

[0061] A flowmeter 2 is schematically represented in FIG. 2 for measuring the flow of a medium flowing through a pipe 3, having a measuring unit 4 for determining individual measured values 6 of the flow and having an error unit 5 for determining the measurement uncertainty of the individual measured values, wherein the determination of the individual measured values 6 is carried out at a measuring frequency of 100 Hz. Thereby, the error unit 5 is designed so that it determines a present measurement uncertainty 7 for each individual measured value 6. Additionally, the error unit 5 takes both static as well as dynamic error sources into account for determining the present measurement uncertainty 7 by means of error propagation.

[0062] In addition, the flowmeter has a display unit 8, to which the individual measured values 6 as well as the associated present measurement uncertainty 7 are transferred, wherein the display unit 8 is designed so that it outputs the individual measured values 6 and the associated present measurement uncertainties 7.

[0063] The illustrated flowmeter 2 allows for the reliability of the individual measured values 6 to be assessed based on the improved expression of the measurement uncertainty of the individual measured values 6, whereby the quality of the measurement is improved overall.