Wheel or Rotor :
The wheel or rotor is fitted over a shaft from which the useful power is available. It is a rotating element of the turbine on which moving blades are fixed.
Nozzle:
The nozzle is a passage for the flow of steam where pressure energy is converted into kinetic energy. Its main function is to produce a jet of steam with a high velocity.
Blades :
De Laval turbine shown in the image below is an example of simple impulse turbine.
In this, only one set of impulse type blades is rigidly fixed to the rim of the rotor or wheel. It converts the kinetic energy of steam into mechanical work.
Casing :
The casing is the outside cover of the steam turbine fixed over a frame. It is fitted with nozzle.
If a jet of steam is discharged from a fixed nozzle at a high speed over a flat stationary plate, a steady force will be exerted over this plate. This force is nothing but an impulse. No work is done as the plate is fixed. But, if a number of such plates are fixed on the rim of a wheel, the wheel may be rotated due to the impulse of steam. Curved plates are used instead of flat plates to utilize greater amount of energy.
In the impulse turbine, steam is expanded in the fixed nozzle only. In the nozzle the velocity of steam increases with decrease of pressure. As the steam passes over the blades, the pressure remains constant with a decrease of velocity.
As the high velocity steam impinges against the baldes, it changes the momentum of jet causing impulsive force on the blades. The wheel is thus made to rotate in a definite direction.
Here the kinetic energy is converted into mechanical work, only by one set of blades. It is simplest type of impulse turbine.