In the figure for this question an ideal Brayton cycle is described in thepv diagramdata- The gas operating in the cycle is air.- The circulating air flow is 1 kg/s- The pressure ratio of the circulation is 10T3 = 1,400 K, T2 = 580 K -- The specific heat coefficient of the gas at constant pressure is: Cp=1004 j/ kg -K- The ratio between the specific heat coefficient at constant pressureand the specific heat coefficient at constant volume is y = 1.4A. State which processes occur between the points marked in thefigure: 4-3, 3-2, 2-1 and - 1-4Indicate for each of the processes whether during it heat wasabsorbed or heat was emitted.B. Calculate the thermal efficiency of the cycle.C. Calculate the power of the heat absorbed in the cycle.d. Calculate the cycle power P3V

data - The gas operating in the cycle is air. - The circulating air flow is 1 kg/s - The pressure ratio of the circulation is 10 T3 = 1,400 K, T2 = 580 K - - The specific heat coefficient of the gas at constant pressure is: Cp= 1004 j/ kg -K

data - The gas operating in the cycle is air. - The circulating air flow is 1 kg/s - The pressure ratio of the circulation is 10 T3 = 1,400 K, T2 = 580 K - - The specific heat coefficient of the gas at constant pressure is: Cp= 1004 j/ kg -K

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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