Please do it fast in 45min An ideal Otto cycle has the compression ratio of 9,1. At the beginning of the compression process the pressure of air is 1,08 bar, its temperature is 29,9°C and its flow rate is 800 kg/h. The compression and the expansion are both adiabatic and reverisble, the heat transfers are isochoric. The pressure in the cylinder after the combustion is 42 bar. The working fluids are air and flue gas, for both R= 0,287 kJ/(kg*K), κ=1,4 applies. Determine the mass-specific work of the cycle.
Please do it fast in 45min An ideal Otto cycle has the compression ratio of 9,1. At the beginning of the compression process the pressure of air is 1,08 bar, its temperature is 29,9°C and its flow rate is 800 kg/h. The compression and the expansion are both adiabatic and reverisble, the heat transfers are isochoric. The pressure in the cylinder after the combustion is 42 bar. The working fluids are air and flue gas, for both R= 0,287 kJ/(kg*K), κ=1,4 applies. Determine the mass-specific work of the cycle.
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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Please do it fast in 45min
An ideal Otto cycle has the compression ratio of 9,1. At the beginning of the compression process the pressure of air is 1,08 bar, its temperature is 29,9°C and its flow rate is 800 kg/h. The compression and the expansion are both adiabatic and reverisble, the heat transfers are isochoric. The pressure in the cylinder after the combustion is 42 bar. The working fluids are air and flue gas, for both R= 0,287 kJ/(kg*K), κ=1,4 applies. Determine the mass-specific work of the cycle.
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