Hydraulically brakeable electrical machine

1 . An electrical machine comprising a rotor, a stator, a housing and a fluid circuit provided between an interior of the housing and the rotor axially along a longitudinal axis of the rotor, wherein a width extension of the fluid circuit axially along the longitudinal axis of the rotor is defined by a first surface and a second surface facing each other, the fluid circuit is adapted to, by means of a fluid in the fluid circuit, exert a braking torque on the rotor responsive to one of the first surface or the second surface being non-rotating, and the other of the first surface or the second surface rotating. 2 . The electrical machine of claim 1 , wherein the first surface is provided by a surface of the rotor. 3 . The electrical machine of claim 1 , wherein the first surface and the second surface are respectively provided with one or more vanes adapted to fluidly engage vanes of the other surface to provide a viscous drag between the surfaces. 4 . The electrical machine of claim 1 , wherein the second surface is provided by a surface of the housing. 5 . The electrical machine of claim 1 , wherein the fluid circuit further comprises an intermediate part rotatably arranged on the longitudinal axis of the rotor axially between the rotor and the housing, the second surface is provided by a surface of the intermediate part. 6 . The electrical machine of claim 1 , wherein the first surface and/or the second surface is movable along the rotational axis to control the width extension of the fluid circuit, preferably, the fluid circuit further comprises a substantially constant amount of fluid. 7 . The electrical machine of claim 6 , wherein the fluid circuit further comprises a substantially constant amount of fluid. 8 . The electrical machine of claim 1 , wherein the fluid circuit further comprises at least one fluid inlet for receiving the fluid into the fluid circuit and at least one fluid outlet for draining the fluid from the fluid circuit. 9 . The electrical machine of claim 1 , wherein the fluid circuit forms part of a cooling system of the electrical machine. 10 . The electrical machine of claim 1 , further comprising a Water Ethanol Glycol cooling system. 11 . The electrical machine of claim 1 , wherein the fluid circuit is arranged at a side of the stator proximal to a drive shaft of the electrical machine. 12 . The electrical machine of claim 1 , wherein the fluid circuit is arranged at a side of the stator distal to a drive shaft of the electrical machine. 13 . The electrical machine of claim 1 , wherein the electrical machine is a propulsion motor for a vehicle. 14 . The electrical machine of claim 1 , wherein the electrical machine is an alternator for the vehicle. 15 . The electrical machine of claim 1 , wherein the first surface is provided by a surface of the rotor; the first surface and the second surface are respectively provided with one or more vanes adapted to fluidly engage vanes of the other surface to provide a viscous drag between the surfaces; wherein the second surface is provided by a surface of the housing or the fluid circuit further comprises an intermediate part rotatably arranged on the longitudinal axis of the rotor axially between the rotor and the housing and the second surface is provided by a surface of the intermediate part; the first surface and/or the second surface is movable along the rotational axis to control the width extension of the fluid circuit; the fluid circuit further comprises at least one fluid inlet for receiving the fluid into the fluid circuit and at least one fluid outlet for draining the fluid from the fluid circuit; the fluid circuit forms part of a cooling system of the electrical machine; the electrical machine further comprises a Water Ethanol Glycol cooling system; the fluid circuit is arranged at a side of the stator proximal to a drive shaft of the electrical machine or the fluid circuit is arranged at a side of the stator distal to a drive shaft of the electrical machine; the electrical machine is a propulsion motor for a vehicle or the electrical machine is an alternator. 16 . A vehicle comprising the electrical machine according to claim 1 . 17 . The vehicle of claim 16 wherein the electrical machine comprises at least one fluid inlet for receiving the fluid into the fluid circuit and at least one fluid outlet for draining the fluid from the fluid circuit, wherein the fluid inlet and fluid outlet are operatively connected to a temperature system of the vehicle. 18 . A method of exerting a braking torque on the rotor of an electrical machine of claim 1 , the method comprising: controlling a viscous drag of the fluid circuit. 19 . The method of claim 18 , wherein controlling a viscous drag of the fluid circuit comprises: providing fluid at an inlet of the fluid circuit and/or draining fluid at an outlet of the fluid circuit. 20 . The method of claim 18 , wherein controlling a viscous drag of the fluid circuit comprises: controlling a width extension of the fluid circuit, wherein the first surface and/or the second surface of the fluid circuit is movable along the rotational axis.