in a steam power cycle, steam enters the turbine at 20 bar with the following different conditions and leaves at 0.5 bar. calculate Carnot efficincy, Rankine efficincy, consdier heat flow in KW assuming mass flow rate of steam as 12 kg/s and steam rate for each case considering the pump work. i) Dry and saturated ii) wet with 0.95 dryness iii) superheat at 450 degrees C solve the problem by Moiler digram for all the cases
in a steam power cycle, steam enters the turbine at 20 bar with the following different conditions and leaves at 0.5 bar. calculate Carnot efficincy, Rankine efficincy, consdier heat flow in KW assuming mass flow rate of steam as 12 kg/s and steam rate for each case considering the pump work. i) Dry and saturated ii) wet with 0.95 dryness iii) superheat at 450 degrees C solve the problem by Moiler digram for all the cases
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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in a steam power cycle, steam enters the turbine at 20 bar with the following different conditions and leaves at 0.5 bar. calculate Carnot efficincy, Rankine efficincy, consdier heat flow in KW assuming mass flow rate of steam as 12 kg/s and steam rate for each case considering the pump work.
i) Dry and saturated
ii) wet with 0.95 dryness
iii) superheat at 450 degrees C
solve the problem by Moiler digram for all the cases
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