Air enters a gas turbine at P1=1100 kPa and T1= 860 K and leaves the turbine at P2=100 kPa and
T2= 450 K. Air enters the turbine through a pipe with an internal cross-section of 0.3 m2
and an
average velocity of 10 m/s, and exhausts through a larger pipe with an internal cross-section of 1
m2
. (for air, R=0.287kJ/kgK)
Figure question 4. Air turbine running at steady state
You can assume that
 Change of Potential energy is negligible.
Turbine
P1=1.1 MPa
T1=860 K
V1=10 m/s
h1=?, v1=?
P2=100 kPa
T2= 450 K
h2=?, v2=?
V2=?
Inlet
Outlet
?̇=?
Air
m=2 kg
3
 Change of Kinetic energy is not negligible.
 Turbine is well insulated and there is no heat transfer.
 Air is an ideal gas.
 The turbine operates at steady state.
Please answer the following questions:
a) Determine the inlet specific enthalpy (ℎ1) and inlet specific volume (?1).
b) Determine the mass flow rate of air through the turbine.
c) Determine the specific enthalpy at outlet (

ℎ2) and specific volume at outlet (?2).
d) Determine the average velocity of air at outlet, V2.
e) Determine the power ?̇ produced by the turbine in kW.