Steam enters a well-insulated turbine operating at steady state at

4MPa

with a specific enthalpy of

3015.4k(J)/(k)g

and a velocity of 10\

(m)/(s)

. The steam expands to the turbine exit where the pressure is

0.07MPa

, specific enthalpy is

2400k(J)/(k)g

, and the velocity is

90(m)/(s)

.\ The mass flow rate is

30k(g)/(s)

.\ Neglecting potential energy effects, determine the power developed by the turbine, in

kW

.\

W_(cv)^()=

Steam enters a well-insulated turbine operating at steady state at 4MPa with a specific enthalpy of 3015.4kJ/kg and a velocity of 10 m/s. The steam expands to the turbine exit where the pressure is 0.07MPa, specific enthalpy is 2400kJ/kg, and the velocity is 90m/s. The mass flow rate is 30kg/s. Neglecting potential energy effects, determine the power developed by the turbine, in kW. Wcv=kW Steam enters a well-insulated turbine operating at steady state at 4MPa with a specific enthalpy of 3015.4kJ/kg and a velocity of 10 m/s. The steam expands to the turbine exit where the pressure is 0.07MPa, specific enthalpy is 2400kJ/kg, and the velocity is 90m/s. The mass flow rate is 30kg/s. Neglecting potential energy effects, determine the power developed by the turbine, in kW. Wcv=kW