3. Steam at 140 bar and 400°C enters the high pressure turbine and expands to 3 bar. 5 400 kg/hr of this exhaust steam is diverted to a chemical plant for process heating. The remainder is reheated to 400°C and expanded in the low pressure turbine isentropic ally to 0.06 bar. If 10 000 KW of net power output is required, determine a. The capacity of the boiler b. The amount of heat (KJ/sec) supplied to the reheater
3. Steam at 140 bar and 400°C enters the high pressure turbine and expands to 3 bar. 5 400 kg/hr of this exhaust steam is diverted to a chemical plant for process heating. The remainder is reheated to 400°C and expanded in the low pressure turbine isentropic ally to 0.06 bar. If 10 000 KW of net power output is required, determine a. The capacity of the boiler b. The amount of heat (KJ/sec) supplied to the reheater
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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Kindly Show the details of your solutions on PROBLEM #2 with Schematic and
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Plsss use metric system unit. Thanksss! ❤️?
Transcribed Image Text:3. Steam at 140 bar and 400°C enters the high pressure turbine and
expands to 3 bar. 5 400 kg/hr of this exhaust steam is diverted to a
chemical plant for process heating. The remainder is reheated to
400°C and expanded in the low pressure turbine isentropic ally to
0.06 bar. If 10 000 KW of net power output is required, determine
a. The capacity of the boiler
b. The amount of heat (KJ/sec) supplied to the reheater
4. In the steam plant of problem#3, the amount of 5 400 kg/hr of the
steam for heating process was extracted after the isentropic
expansion of the low pressure turbine. If same net power output is
required, determine
a. The capacity of the boiler
b. The amount of heat (KJ/sec) supplied to the reheater
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