3.3 TurbineThe expansion of the sat

3.3 Turbine
The expansion of the saturated air in the turbine cannot be regarded as an adiabatic expansion of an
ideal gas. With the decrease of the wet air pressure in the turbine, the temperature of the wet air decreases
gradually, and some heat is discharged during the condensation of some water vapor gradually. The heat
rejected may cause the increases in both the temperature of the turbine outlet and the work done in the
expansion.
When the pressure of the saturated air decreased in nozzle of turbine, the temperature of the saturated
air declined, some water vapor condensed, the latent heat discharged, and the velocity of wet air increased.
For the whole working fluid, it is an adiabatic expansion process. However, for the air only (without liquid
water), it is polytropic expansion process with adding heat. The poly-tropic exponent could be determined
by the latent heat discharged by condensed water.
So, for this problem, we can imagine that no phase change exists and that there is some heat added to
the wet air during the expansion process when we calculate the work done by the expansion process.
According to the above assumption, this problem can be simplified to a problem of the polytropic
expansion of an ideal gas. Consequently, we can obtain the ideal work done by the expansion, t w , through
iteration, and then obtain the real work generated by the turbine and the temperature of the turbine outlet.
Because the poly-tropic exponent and the temperature of the turbine outlet are determined by the latent
heat discharged by condensed water through iteration, the above assumption approach the reality and the
results according to the assumption will come close to real situation.