Centrifugal separator having a rotary transformer and a user of electric energy

The invention claimed is: 1. A centrifugal separator comprising: a rotor arrangement; and a drive arrangement, wherein the rotor arrangement comprises a spindle, a separator bowl enclosing a separation space, and a user of electric energy, wherein the centrifugal separator comprises an inlet for a fluid mixture, and an outlet for a separated fluid, wherein the inlet is fluidly connected with the separation space, and the outlet is fluidly connected with the separation space, wherein the drive arrangement is connected to, or forms part of, the spindle and is configured to rotate the rotor arrangement about a rotation axis, wherein the centrifugal separator comprises a rotary transformer, the rotary transformer comprising a transformer stator and a transformer rotor, wherein the transformer stator and the transformer rotor are arranged adjacent to each other with an airgap therebetween, wherein the transformer rotor comprises a coil and is rotatable together with the rotor arrangement, wherein the coil is electrically connected to the user of electric energy arranged in the rotor arrangement for providing the user of electric energy with an electric current, wherein: the centrifugal separator comprises an actuator arranged in the rotor arrangement, the actuator at least part of the user of electric energy; or the centrifugal separator comprises a sensor arranged in the rotor arrangement, the sensor forming at least part of the user of electric energy; or the centrifugal separator comprises a control unit arranged in the rotor arrangement, the control unit forming at least part of the user of electric energy, and wherein the transformer rotor is arranged on the separator bowl to rotate with the separator bowl, and wherein the transformer stator is arranged adjacent to the separator bowl. 2. The centrifugal separator according to claim 1 , wherein the transformer stator is arranged radially outside the transformer rotor, seen from the rotation axis. 3. The centrifugal separator according to claim 2 , comprising an actuator arranged in the rotor arrangement the actuator forming at least part of the user of electric energy, and comprising a valve arranged in the rotor arrangement, wherein the actuator is configured for actuating a movable mechanism of the valve. 4. The centrifugal separator according to claim 1 , wherein the transformer stator is arranged axially adjacent to the transformer rotor, seen along the rotation axis. 5. The centrifugal separator according to claim 4 , comprising an actuator arranged in the rotor arrangement the actuator forming at least part of the user of electric energy, and comprising a valve arranged in the rotor arrangement, wherein the actuator is configured for actuating a movable mechanism of the valve. 6. The centrifugal separator according to claim 1 , comprising an actuator arranged in the rotor arrangement the actuator forming at least part of the user of electric energy, and comprising a valve arranged in the rotor arrangement, wherein the actuator is configured for actuating a movable mechanism of the valve. 7. The centrifugal separator according to claim 1 , comprising a control unit arranged in the rotor arrangement, the control unit forming at least part of the user of electric energy, wherein the centrifugal separator is configured to transmit a signal from the transformer stator to the control unit via the transformer rotor. 8. The centrifugal separator according to claim 1 , wherein the rotary transformer is configured to provide a power within a range of 1-10 W to the user of electric energy, or to provide a power of at least 6 W to the user of electric energy. 9. The centrifugal separator according to claim 1 , wherein the rotary transformer is configured to provide a power of at least 50 W to the user of electric energy. 10. A centrifugal separator comprising: a rotor arrangement; and a drive arrangement, wherein the rotor arrangement comprises a spindle, a separator bowl enclosing a separation space, and a user of electric energy, wherein the centrifugal separator comprises an inlet for a fluid mixture, and an outlet for a separated fluid, wherein the inlet is fluidly connected with the separation space, and the outlet is fluidly connected with the separation space, wherein the drive arrangement is connected to, or forms part of, the spindle and is configured to rotate the rotor arrangement about a rotation axis, wherein the centrifugal separator comprises a rotary transformer, the rotary transformer comprising a transformer stator and a transformer rotor, wherein the transformer stator and the transformer rotor are arranged adjacent to each other with an airgap therebetween, wherein the transformer rotor comprises a coil and is rotatable together with the rotor arrangement, wherein the coil is electrically connected to the user of electric energy arranged in the rotor arrangement for providing the user of electric energy with an electric current, wherein: the centrifugal separator comprises an actuator arranged in the rotor arrangement, the actuator at least part of the user of electric energy; or the centrifugal separator comprises a sensor arranged in the rotor arrangement, the sensor forming at least part of the user of electric energy; or the centrifugal separator comprises a control unit arranged in the rotor arrangement, the control unit forming at least part of the user of electric energy, and wherein the drive arrangement comprises an electric motor comprising a motor rotor and a motor stator, wherein the motor rotor forms part of the spindle such that the spindle forms part of the drive arrangement, and wherein the transformer rotor is arranged in a portion of the motor rotor. 11. A centrifugal separator comprising: a rotor arrangement comprising a spindle and a separator bowl enclosing a separation space; a drive arrangement connected to, or forms part of, the spindle and is configured to rotate the rotor arrangement about a rotation axis; a user of electric energy; an inlet for a fluid mixture fluidly connected with the separation space, and an outlet for a separated fluid fluidly connected with the separation space; a rotary transformer, the rotary transformer comprising a transformer stator and a transformer rotor; wherein the transformer stator and the transformer rotor are arranged adjacent to each other with an airgap therebetween, wherein the transformer rotor comprises a coil and is rotatable together with the rotor arrangement, wherein the coil is electrically connected to the user of electric energy arranged in the rotor arrangement for providing the user of electric energy with an electric current, and wherein the transformer rotor is arranged on the separator bowl to rotate with the separator bowl, and wherein the transformer stator is arranged adjacent to the separator bowl.