Centrifugal pump unit

The invention claimed is: 1. A centrifugal pump unit comprising: a body which comprises: a suction connection; a pressure connection; and a pump chamber connecting the suction connection and the pressure connection; an impeller disposed in the pump chamber; and one or more electromagnetic flow sensors, each electromagnetic flow sensor omitting a flow conditioner and arranged to measure flow in at least a part of the suction connection, the pressure connection, and the pump chamber for determining a flow rate of a fluid through the centrifugal pump unit, wherein each electromagnetic flow sensor is: an insert-type sensor inserted through an aperture of a respective part of the body and comprising: a sealing portion engaging with and providing a seal to the respective part of the body; an elongated vane extending from the sealing portion in a first direction to a distal end disposed within the respective part of the body, the vane comprising a front face, a back end, a first side wall and a second side such that flow is diverted around the vane comprising: a first electrode exposed by a first aperture in the first side wall; a second electrode exposed by a second aperture in the second side wall; and a drive coil which is self-supporting or wound about a core, the drive coil arranged to generate a dipole magnetic field oriented along the first direction in order to generate a voltage between the first and second electrodes in response to flow of conductive fluid through the dipole magnetic field; wherein the drive coil is disposed between the first and second side walls. 2. The centrifugal pump unit of claim 1 : wherein the impeller has an eye diameter and an impeller axis; wherein each electromagnetic flow sensor has an electrode midpoint between the first and second electrodes; and wherein the electrode midpoint is disposed such that a separation, s, between the impeller axis and the electrode midpoint is less than or equal to ten times the eye diameter; and wherein s is measured in any radial direction about the impeller axis. 3. The centrifugal pump unit of claim 1 : wherein the impeller has an eye diameter, an impeller axis and an impeller suction-side face defining a plane; wherein each electromagnetic flow sensor has an electrode midpoint between the first electrode and the second electrode; and wherein the electrode midpoint in the suction connection is disposed such that the separation, s, between the electrode midpoint and an intersection of the impeller axis and the plane of the suction-side face is less than or equal to ten times the impeller eye diameter. 4. The centrifugal pump unit of claim 1 , wherein each of the one or more electromagnetic flow sensors is removably attachable to or insertable into the body. 5. The centrifugal pump unit of claim 1 , further comprising: a controller configured to receive a measured voltage signal from the one or more electromagnetic flow sensors and to provide an output signal or signal value dependent on the measured voltage signal indicative of the flow rate of the fluid through the centrifugal pump unit. 6. The centrifugal pump unit of claim 5 , wherein the controller is configured to correct the measured voltage signal, the output signal, the signal dependent on the measured voltage signal, or an intermediate signal between the measured voltage signal, the output signal, and the signal dependent on the measured voltage signal using: a pump speed, a motor load, or both; or an operating point with respect to a best efficiency point of the pump. 7. The centrifugal pump unit of claim 5 , wherein the controller is configured: to receive or to store data indicative of a tube diameter for the suction or pressure connection; and to compute the output signal or the signal value dependent on the measured voltage signal in dependence on the tube diameter and a pre-defined relationship between the tube diameter and volumetric flow rate, Q. 8. The centrifugal pump unit of claim 5 , wherein the controller is configured: to receive or to store a correction value; and to compute the output signal or the signal value in dependence on the correction value and a pre-defined relationship between a diameter of a lumen of the centrifugal pump unit and volumetric flow rate, Q. 9. The centrifugal pump unit of claim 5 , wherein at least one of the one or more electromagnetic flow sensors includes a temperature sensor for providing temperature data. 10. The centrifugal pump unit of claim 9 , wherein the controller is configured to use the temperature data to correct for thermal dependence of flow sensor gain, offset, or both. 11. The centrifugal pump unit of claim 9 , wherein the controller is configured to provide the output signal or the signal value dependent at least in part on the temperature data. 12. The centrifugal pump unit of claim 9 , further comprising at least two electromagnetic flow sensors provided at different positions on the pump body, each electromagnetic flow sensor providing a respective voltage signal, wherein the controller is configured to compute a volumetric flow rate using the respective voltage signal provided by each electromagnetic flow sensor. 13. The centrifugal pump unit of claim 1 , wherein each of the one or more electromagnetic flow sensors is arranged within the body of the pump such that each electromagnetic flow sensor measures flow in a region which exhibits a monotonic relationship, over a least part of a flow range of the pump, between measured flow and actual flow rate. 14. The centrifugal pump unit of claim 1 , wherein each of the one or more electromagnetic flow sensors has an orientation and a position with respect to a lumen of the centrifugal pump unit such that each electromagnetic flow sensor measures flow in a region which exhibits a monotonic relationship, over a least part of the flow range of the centrifugal pump unit, between measured flow and actual flow rate. 15. The centrifugal pump unit of claim 1 , wherein a cross section of a lumen of the pump body is larger at a first position where the one or more electromagnetic flow sensors is inserted than a second position on either side of the first position. 16. The centrifugal pump unit of claim 1 , wherein: in a case where an electromagnetic flow sensor of the one or more electromagnetic flow sensors is arranged to measure velocity of conductive fluid in the localized region of the lumen of the suction connection, a cross-sectional area of the localized region corresponding to that electromagnetic flow sensor is less than the lumen of the suction connection; and in a case where an electromagnetic flow sensor of the at least one electromagnetic flow sensors is arranged to measure velocity of conductive fluid in the localized region of the lumen of the pressure connection, a cross-sectional area of the localized region corresponding to that electromagnetic flow sensor is less than the lumen of the pressure connection. 17. The centrifugal pump unit of claim 1 , wherein each vane protrudes past an inner wall and into the lumen of the suction connection or the lumen of the pressure connection. 18. A temperature-regulating system comprising a fluid circuit which includes at least one a heat source, at least one heat sink, and at least one centrifugal pump unit according to claim 1 arranged to pump fluid around the fluid circuit. 19. A fluid-handling system comprising a fluid path between a fluid source, a fluid sink, and at least one centrifugal pump unit according to cla