A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the pump work in KW if the mass flow rate is 0.5 kg/s O a. 88.6 kw Ob. 123 kw ос 349kw od. 95.7 kw A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the turbine work in KW if the mass flow rate is 1.2 kg/s O a. 2238 kw Ob. 2000 kw ос. 100kw od 1326 kw A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the cycle efficiency o a. 30% O b. 44% O. 56% od. 32 %
A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the pump work in KW if the mass flow rate is 0.5 kg/s O a. 88.6 kw Ob. 123 kw ос 349kw od. 95.7 kw A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the turbine work in KW if the mass flow rate is 1.2 kg/s O a. 2238 kw Ob. 2000 kw ос. 100kw od 1326 kw A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively. Determine the cycle efficiency o a. 30% O b. 44% O. 56% od. 32 %
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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![A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the pump work in KW if the mass flow rate is 0.5 kg/s
Оа. 88.6 kW
оь. 123 kW
о с. 34.9 kW
o d. 95.7 kW
A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the turbine work in KW if the mass flow rate is 1.2 kg/s
O a. 2238 kw
O b. 2000 kW
Oc. 1000 kW
od. 1326 kw
A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the cycle efficiency
O a. 30 %
O b. 44 %
O c. 56 %
o d. 32 %](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd557a479-c70d-4ef0-af2a-148b10a7396f%2Fabe3e49d-18b7-4013-ae84-1864db12c14f%2F2qvm0vo_processed.png&w=3840&q=75)
Transcribed Image Text:A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the pump work in KW if the mass flow rate is 0.5 kg/s
Оа. 88.6 kW
оь. 123 kW
о с. 34.9 kW
o d. 95.7 kW
A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the turbine work in KW if the mass flow rate is 1.2 kg/s
O a. 2238 kw
O b. 2000 kW
Oc. 1000 kW
od. 1326 kw
A Rankine cycle with a water boiler at 3.0 MPa. The cycle has the highest and lowest temperatures of 450°C and 45°C respectively.
Determine the cycle efficiency
O a. 30 %
O b. 44 %
O c. 56 %
o d. 32 %
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