1-6 already answered, please help me study this TYSM! A Rankine cycle is executed with steam expanding initially from 20 MPaa and 100 deg SH.Condensation occurs at 300 mm HG vac. All expansion and compression efficiencies are 90 %.Sketch the equipment layout and the TS diagram.Answer the following for 10 kg/sec of steam circulated and fill up the blanks in the items below:1 TS diagram with the cycle showing correct location of points with respect to saturation dome linewith ne and no 90%2 Ideal heat rate in KJ/KW-nr Answer3. Heatrejected at the condenser in KW (Actual) Answer:4. Actual Fankine engine cmclency % Answer.5. Ideal Ranke oýcle ef6. Actual Rankine cycle efficiency using pump and turbine work % Answer:7. If the generator efficiency = 95%, brake engine efficiency = 90% what is the combined work in KW?answaredsweredAnswer.Answer:8. If Cp water = 4.187 KJ/kg-K; cooling water enters the condenser at 12 deg C and leaves at 21 deg C,find amount of cooling water needed by the condenser in kg/sec. (ACTUAL) Answer:9. Torque at the dynamometer if the engine is running at 900 rpm. Answer:.%3D10. Combined Steam rate Answer

Answered: Image /qna-images/answer/0885e310-be13-4dff-a66b-39597ec6e159.jpg

generator eliciency = 95%, brake engine elficiency = 90% What is the combined work in KW? Answer: If Cp water = 4.187 KJ/kg-K; cooling water enters the condenser at 12 deg C and leaves at 21 deg C, find amount of cooling water needed by the condenser in kg/sec. (ACTUAL) Answer: Torque at the dynamometer if the engine is running at 900 rpm. Answer; Combined Steam rate Answer %3D

generator eliciency = 95%, brake engine elficiency = 90% What is the combined work in KW? Answer: If Cp water = 4.187 KJ/kg-K; cooling water enters the condenser at 12 deg C and leaves at 21 deg C, find amount of cooling water needed by the condenser in kg/sec. (ACTUAL) Answer: Torque at the dynamometer if the engine is running at 900 rpm. Answer; Combined Steam rate Answer %3D

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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