Electromagnetic flowmeter empty pipe detection system

What is claimed is: 1. A magnetic flowmeter comprising: a conduit for conveying an electrically conductive fluid through the flowmeter; an electrical coil on the conduit and arranged to generate a magnetic field extending through the conduit; a coil driver configured to apply alternating current to the electrical coil to energize the coil and periodically reverse polarity of the magnetic field; a pair of electrodes on the conduit arranged to detect voltages generated by flow of the conductive fluid through the magnetic field; a measurement system configured to measure a flow rate of the fluid through the conduit using the voltages detected by the electrodes; and an empty conduit detector arranged to receive signals from the electrodes and determine whether or not the electrodes are immersed in the conductive fluid, the empty conduit detector being configured to determine whether or not the electrodes are immersed in the conductive fluid by analyzing the signals from the electrodes, wherein the empty conduit detector is configured to determine whether or not the electrodes are immersed in the conductive fluid using at least one of the following: a saturation level of a difference signal from the electrodes; a level of line noise in the signals from the electrodes, a level of flow induced voltage in the signals from the electrodes; a level of magnetic flux induced EMF in the signals from the electrodes; and combinations thereof. 2. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to determine whether or not the electrodes are immersed in the conductive fluid using the saturation level of the difference signal from the electrodes. 3. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to determine whether or not the electrodes are immersed in the conductive fluid using the level of line noise in the signals from the electrodes. 4. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to determine whether or not the electrodes are immersed in the conductive fluid using the level of flow induced EMF in the signals from the electrodes. 5. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to determine whether or not the electrodes are immersed in the conductive fluid using the level of magnetic flux induced EMF in the signals from the electrodes. 6. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector comprises a data acquisition board configured to determine whether or not the electrodes are immersed in the conductive fluid by analyzing the signals from the electrodes. 7. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector does not use any sensors except the electrodes to determine whether or not the electrodes are immersed in the fluid. 8. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to determine that the electrodes are not immersed upon finding any of the following conditions to be true: the signals from the electrodes are saturated; there is excessive line noise; and EMF induced by magnetic flux change cannot be detected. 9. A magnetic flowmeter as set forth in claim 1 wherein the empty conduit detector is configured to: (a) assess whether or not the difference signal from the electrodes is saturated and: (i) determine that the electrodes are not immersed when the difference signals are saturated; and (2) go to step (b) when the difference signal is not saturated; (b) assess whether or not there is excessive line noise and: (i) determine the electrodes are not immersed when the line noise is excessive; and (ii) go to step (c) when the line noise is not excessive; (c) assess whether or not a flow signal can be detected and: (i) determine that the electrodes are immersed when the flow signal can be detected, the line noise is not excessive, and the signals from the electrodes are not saturated; and (ii) go to step (d) when the flow signal cannot be detected; and (d) assess whether or not EMF induced by magnetic flux change can be detected and: (i) determine that the electrodes are not immersed when EMF induced by magnetic flux change cannot be detected; and (ii) determine that the electrodes are immersed when the EMF induced by magnetic flux change can be detected, the line noise is not excessive, and the signals from the electrodes are not saturated. 10. A magnetic flowmeter as set forth in claim 1 wherein the flowmeter is configured to activate an alarm when the empty conduit detector determines the electrodes are not immersed in the fluid. 11. A magnetic flowmeter as set forth in claim 1 wherein the flowmeter is configured to output a status message indicating whether or not the empty conduit detector has determined the electrodes are immersed in the fluid. 12. A magnetic flowmeter comprising: a conduit for conveying an electrically conductive fluid through the flowmeter; a electrical coil on the conduit and arranged to generate a magnetic field extending through the conduit; a coil driver configured to apply alternating current to the electrical coil to energize the coil and periodically reverse polarity of the magnetic field; a pair of electrodes on the conduit arranged to detect voltages generated by flow of the conductive fluid through the magnetic field; a measurement system configured to measure a flow rate of the fluid through the conduit using the voltages detected by the electrodes; and a low-flow verification system configured to distinguish a condition in which a low or zero flow rate measurement is caused by a low rate of fluid flow through the conduit from a condition in which a low or zero flow rate measurement is caused by the electrodes being positioned above a level of the fluid in the conduit, the low-flow verification system being configured to assess whether or not EMF induced by magnetic flux change can be detected and to verify the low or zero flow rate measurement when EMF induced by magnetic flux change is detected. 13. A magnetic flowmeter as set forth in claim 12 wherein the coil driver is configured to apply a square wave to the electrical coil and the low-flow verification system is configured to detect EMF induced by the magnetic flux change by analyzing a voltage signal from the electrodes. 14. A magnetic flowmeter as set forth in claim 13 wherein the low-flow verification system is configured to detect EMF induced by the magnetic flux change by detecting overshoots in the voltage signal. 15. A method of detecting an empty conduit condition in a magnetic flowmeter of the type comprising a conduit for conveying an electrically conductive fluid through the flowmeter; an electrical coil on the conduit and arranged to generate a magnetic field extending through the conduit; a coil driver configured to apply alternating current to the electrical coil to energize the coil and periodically reverse polarity of the magnetic field; a pair of electrodes on the conduit arranged to detect voltages generated by flow of the conductive fluid through the magnetic field; and a measurement system configured to measure a flow rate of the fluid through the conduit using the voltages detected by the electrodes, the method comprising using at least one of the following to determine whether or not the electrodes are immersed in the fluid: a saturation level of a difference signal from the electrodes; a level of line noise in the signals from the electrodes; a level of flow induced voltage in the