(Q2) Consider a two-stages steam turbine, as shown in the figure, with an inlet state 12.5 MPa and 1000°C that enters at a rate of 38 m'/s. At the exit of the first state, 12% of the mass flow rate is bled from this turbine at 800 kPa and 300°C. The remaining steam proceeds to the second stage from which it leaves at 20 kPa and quality of 86%. At each stage, the turbine is losing heat to the surroundings at a rate of 14 kJ/kg. Determine the total power produced by this turbine. STEAM TURBINE (2nd stage) (1st stage)
(Q2) Consider a two-stages steam turbine, as shown in the figure, with an inlet state 12.5 MPa and 1000°C that enters at a rate of 38 m'/s. At the exit of the first state, 12% of the mass flow rate is bled from this turbine at 800 kPa and 300°C. The remaining steam proceeds to the second stage from which it leaves at 20 kPa and quality of 86%. At each stage, the turbine is losing heat to the surroundings at a rate of 14 kJ/kg. Determine the total power produced by this turbine. STEAM TURBINE (2nd stage) (1st stage)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:(Q2) Consider a two-stages steam turbine, as shown in the figure, with
an inlet state 12.5 MPa and 1000°C that enters at a rate of 38 m'/s. At
the exit of the first state, 12% of the mass flow rate is bled from this
turbine at 800 kPa and 300°C. The remaining steam proceeds to the
second stage from which it leaves at 20 kPa and quality of 86%. At
each stage, the turbine is losing heat to the surroundings at a rate of 14
kJ/kg. Determine the total power produced by this turbine.
STEAM
TURBINE
(2nd stage)
(1st stage)
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