Problem2:A cold air-standard Otto cycle has a compression ratio of 6 and the temperature and pressure at the beginning of thecompression process are 520°R and 14.2 lbf/in.?, respectively. The heat addition per unit mass of air is 600 Btu/lb. Assumeconstant specific heats evaluted at 520°R.Determine:(a) the maximum temperature, in °R.(b) the maximum pressure, in Ibf/in.2(c) the percent thermal efficiency.(d) the mean effective pressure, in Ibf/in.?

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Answered: Problem2: A cold air-standard Otto…

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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An air-standard Otto cycle has a compression ratio of 9. At the beginning of compression, P1 = 100 kPa and T1 = 300 K. The heat addition per unit mass of air is 1350 kJ/kg. Determine: a) the net work, in kJ per kg of air b) the thermal efficiency of the cycle c) the mean effective pressure, in kPa
The state at the beginning of compression of an air-standard Diesel cycle is fixed by p₁ = 100 kPa and T₁ = 310 K. The compression ratio is 18 and the cutoff ratio is 1.9. Determine: (a) the maximum temperature, in K. (b) the pressure at the end of the expansion, in kPa. (c) the net work per unit mass of air, in kJ/kg. (d) the percent thermal efficiency.
The rate of heat addition to an ideal air-standard Brayton cycle is 1.0 x 107 Btu/h. The pressure ratio for the cycle is 12 and the minimum and maximum temperatures are 520°R and 2800°R, respectively.Determine:(a) the percent thermal efficiency of the cycle.(b) the mass flow rate of air, in lb/h.(c) the net power developed by the cycle, in hp.
3. Air is used in an ideal Brayton cycle (shown in p-v and T-s diagram). The state conditions are given in the following Table. (a) The heat addition and heat rejection (b) The net power developed per unit mass flow rate (c) The thermal efficiency State T(°C) P(kPa) 1 20 100 3 1000 350 T 3 3 b a 2.

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