A turbine, operating under steady- flow conditions, reccives 1000 kg/min of stcam. At the inlet, the pressure is 30 bar, the temperature is 400°C, the velocity At the exit, the pressure is 0.7 bar, the quality is (100%), and the velocity is 100 m/s. If the turbine

Elements Of Electromagnetics
7th Edition
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Author:Sadiku, Matthew N. O.
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A turbine, operating under steady- flow conditions, reccives 1000 kg/min of stcam. At the inlet, the pressure is 30 bar, the temperature is 400°C, the velocity At the exit, the pressure is 0.7 bar, the quality is (100%), and the velocity is 100 m/s. If the turbine produced a power output of 9300 KW. By using the energy balance of open system with sutable tables, answer the following: (a) What are the main assumptions ? (b) Calculate dh, AKe ? (c) Calculate the rate of heat transfer between the turbine and surroundings, in kW.
A turbine, operating under steady- flow conditions, receives 1000 kg/min of steam.
At the inlet, the pressure is 30 bar, the temperature is 400°C, the velocity is 160 m/s.
At the exit, the pressure is 0.7 bar, the quality is (100%), and the velocity is 100 m/s.
If the turbine produced a power output of 9300 KW. By using the energy balance of
open system with sutable tables, answer the following:
(a) What are the main assumptions ?
(b) Calculate 4h, AKe?
(c) Calculate the rate of heat transfer between the turbine and surroundings, in kW.
Saturated Liquid
7 = 400 C
super heated steam
why- 1000 kg/ n
Pi = 30 bar
T- 400 °C
V = 160 m's
P1-30 bar
saturated Vapour
= 9300 KW
P2 07 bar
Pa=0.7 bar
=100%
V = 100 m's
Two-Phase
Transcribed Image Text:A turbine, operating under steady- flow conditions, receives 1000 kg/min of steam. At the inlet, the pressure is 30 bar, the temperature is 400°C, the velocity is 160 m/s. At the exit, the pressure is 0.7 bar, the quality is (100%), and the velocity is 100 m/s. If the turbine produced a power output of 9300 KW. By using the energy balance of open system with sutable tables, answer the following: (a) What are the main assumptions ? (b) Calculate 4h, AKe? (c) Calculate the rate of heat transfer between the turbine and surroundings, in kW. Saturated Liquid 7 = 400 C super heated steam why- 1000 kg/ n Pi = 30 bar T- 400 °C V = 160 m's P1-30 bar saturated Vapour = 9300 KW P2 07 bar Pa=0.7 bar =100% V = 100 m's Two-Phase
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