Magnetic-inductive flowmeter and measuring point having a magnetic-inductive flowmeter of this type

The invention claimed is: 1. A magnetic-inductive flowmeter for measuring flow velocity or volume flow of a medium, the flowmeter comprising: a measuring tube adapted to convey the medium in a longitudinal direction defined by a measuring tube axis, wherein the measuring tube includes an inlet end area and an outlet end area, which delimit the measuring tube in the longitudinal direction; a magnetic field producing apparatus disposed about a cross-section of the measuring tube and configured to generate a magnetic field in the medium extending essentially perpendicular to the longitudinal direction, wherein the magnetic field producing apparatus includes a segment configured to couple the magnetic field into the medium and applied on, or at a predetermined minimum distance from, the measuring tube, wherein the segment surrounds the measuring tube over a first angle, which defines a maximum angle of arc in the cross-section of the measuring tube; and an electrode system including at least two electrode pairs, which are adapted to detect a voltage in the medium induced perpendicular to the magnetic field and to the longitudinal direction, wherein a vertical measuring tube longitudinal plane defines a first side and a second side of the measuring tube, wherein a first electrode of an electrode pair of the at least two electrode pairs is disposed on the first side of the measuring tube, wherein a second electrode of the corresponding electrode pair is disposed on the second side, wherein a second angle in the cross-section of the measuring tube defines a minimum circular sector in which the respective first electrodes of the at least two electrode pairs disposed on the first side of the measuring tube are distributed, wherein the first angle and second angle are so matched to each other that the flowmeter is insensitive to departures from a rotationally symmetric flow to a degree such that, in a test measurement, the flowmeter provides a measurement error of flow velocity and/or a measurement error of volume flow of less than 1.0%, wherein the flow velocity and/or the volume flow are/is determined given a flow with fully developed flow profile of the medium, and wherein the flow velocity and/or the volume flow are/is determined given a rotationally asymmetric flow of the medium. 2. The flowmeter of claim 1 , wherein, for the test measurement, the rotationally asymmetric flow is generated by a disturbance disposed adjacent the inlet end area and comprising at least one disturbance source. 3. The flowmeter of claim 2 , wherein: the disturbance source comprises a diaphragm or a 90° elbow; when the disturbance source is a diaphragm, the diaphragm reduces the cross-section of the measuring tube by about 10%; when the disturbance source is a diaphragm, the diaphragm has a chord that limits the diaphragm toward the tube; when the disturbance source is a diaphragm, the diaphragm assumes a first diaphragm orientation or a second diaphragm orientation, wherein, in the case of the first diaphragm orientation, the chord is oriented perpendicular to the magnetic field and, in the case of the second diaphragm orientation, the chord is oriented in parallel with the magnetic field; and when the disturbance source is a 90° elbow, the 90° elbow assumes a first elbow orientation or a second elbow orientation, wherein the first elbow orientation is defined relative to a first tube axis extending perpendicular to the magnetic field and to the longitudinal direction of the measuring tube, and wherein the second elbow orientation is defined relative to a second tube axis extending in parallel with the magnetic field and perpendicular to the longitudinal direction of the measuring tube. 4. The flowmeter of claim 3 , wherein the disturbance is disposed at a distance of 0-DN from the inlet end area. 5. The flowmeter of claim 1 , wherein the flowmeter is substantially insensitive to departures from the rotationally asymmetric flow profile at a Reynolds number of the medium in the measuring tube greater than or equal to 10,000. 6. The flowmeter of claim 1 , wherein the flowmeter comprises three electrode pairs. 7. The flowmeter of claim 1 , wherein at least two first electrodes or at least two second electrodes of the at least two electrode pairs that are disposed on the first or second side of the measuring tube, respectively, are connected. 8. The flowmeter of claim 1 , wherein the second angle is greater than or equal to 30° and less than or equal to 60°. 9. The flowmeter of claim 1 , wherein the first angle is greater than or equal to 50° and the less than or equal to 90°. 10. The flowmeter of claim 1 , wherein the second angle is greater than or equal to 40° and less than or equal to 50°, and wherein the first angle is greater than or equal to 70° and the less than or equal to 80°. 11. The flowmeter of claim 1 , wherein the magnetic field producing apparatus comprises at least one saddle coil or at least one pole shoe with superimposed coil, either configured to generate a magnetic field in the medium extending perpendicular to the longitudinal direction. 12. The flowmeter of claim 1 , wherein the electrodes are arranged axisymmetrically to the vertical measuring tube longitudinal plane. 13. The flowmeter of claim 1 , wherein two adjacent first electrodes or two adjacent second electrodes of the at least two electrode pairs disposed on either the first or second side of the measuring tube, respectively, are spaced at a third angle in the cross-section of the measuring tube, the third angle defined as α/(N−1), wherein a is the second angle and N is a natural number corresponding to the number of the at least two electrode pairs. 14. The flowmeter of claim 1 , wherein wherein the first angle and second angle are so matched to each other that the flowmeter is insensitive to departures from a rotationally symmetric flow to a degree such that, in the test measurement, the flowmeter provides a measurement error of flow velocity and/or a measurement error of volume flow of less than 0.5%. 15. A measuring point for determining a flow-profile independent flow velocity or volume flow of a medium, the measuring point comprising: a magnetic-inductive flowmeter configured to measure the flow velocity or volume flow of the medium, comprising: a measuring tube adapted to convey the medium in a longitudinal direction defined by a measuring tube axis, wherein the measuring tube includes an inlet end area and an outlet end area, which delimit the measuring tube in the longitudinal direction; a magnetic field producing apparatus disposed about a cross-section of the measuring tube and configured to generate a magnetic field in the medium extending essentially perpendicular to the longitudinal direction, wherein the magnetic field producing apparatus includes a segment configured to couple the magnetic field into the medium and applied on, or at a predetermined minimum distance from, the measuring tube, wherein the segment surrounds the measuring tube over a first angle, which defines a maximum angle of arc in the cross-section of the measuring tube; an electrode system including at least two electrode pairs, which are adapted to detect a voltage in the medium induced perpendicular to the magnetic field and to the longitudinal direction, wherein a vertical measuring tube longitudinal plane defines a first side and a second side of the measuring tube, wherein a first electrode of an electrode pair of the at least two electrode pairs is disposed on the first side of the measuring tube, wherein a second electrode of the corresponding electrode pair is disposed on the sec