BS EN IEC 60034‑3 is a series in European standards that discusses rotating electrical machines.
BS EN IEC 60034‑3 applies to large three-phase synchronous generators, having rated outputs of 10 MVA and above driven by steam turbines or combustion gas turbines.
BS EN IEC 60034‑3 requirements apply to a synchronous generator driven by both a steam turbine and a combustion gas turbine as part of a single shaft combined-cycle unit.
Note 1: BS EN IEC 60034‑3 requirements do not apply to synchronous generators driven by water (hydraulic) turbines or wind turbines.
BS EN IEC 60034‑3 on rotating electrical machines for steam turbines or combustion gas turbines is useful for:
Rotating electrical machines consists of rotor, stator and air gap between them. Stator and rotor consist of windings, in which rotor is installed in the stem and that stem connects to the motor and any other loads.
A synchronous generator is a large synchronous machine driven by steam or gas turbines that converts mechanical energy into electrical energy and supplies it to an electrical grid.
The synchronous compensator is a large synchronous machine that is electrically coupled to the grid but does not exchange mechanical energy through the shaft during steady-state operation.
BS EN IEC 60034‑3 provides specifications about the temperature of primary coolant for air cooed generators or compensators. This allows you to monitor the temperature of the stator winding, which helps in manufacturing the rotating electrical machines in a secure manner.
BS EN IEC 60034‑3 helps you with the necessary precautions to be taken when using hydrogen cooled generators including rotating exciters driven by synchronous generators, auxiliary equipment needed for operating the generators, parts of the building where hydrogen might accumulate.
BS EN IEC 60034‑3:2020 supersedes BS EN 60034‑3:2008, which is withdrawn. It includes:
EN 61000-4-25:2002/A1:2012
IEC 60034-3 Ed 7.0
EN 60034-3 Ed 7.0