Make sure for parts h and i, you circle the answers. At the beginning of the compression process of an air standard Otto cycle, p1 = 1 bar, T1 = 300 K. The maximum temperature in the cycle is 2250 K and the compression ratio is 9.8. The engine has 4 cylinders and an engine displacement of Vd = 2.1 L. Determine per cylinder: h) Develop a full exergy accounting per cycle, in kJ. Let T0 = 300 K, p0 = 1 bar (See image below). i) Devise and evaluate the exergetic efficiency for the cycle. part h
Make sure for parts h and i, you circle the answers. At the beginning of the compression process of an air standard Otto cycle, p1 = 1 bar, T1 = 300 K. The maximum temperature in the cycle is 2250 K and the compression ratio is 9.8. The engine has 4 cylinders and an engine displacement of Vd = 2.1 L. Determine per cylinder: h) Develop a full exergy accounting per cycle, in kJ. Let T0 = 300 K, p0 = 1 bar (See image below). i) Devise and evaluate the exergetic efficiency for the cycle. part h
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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Make sure for parts h and i, you circle the answers.
At the beginning of the compression process of an air standard Otto cycle, p1 = 1 bar, T1 = 300 K. The maximum temperature in the cycle is 2250 K and the compression ratio is 9.8. The engine has 4 cylinders and an engine displacement of Vd = 2.1 L. Determine per cylinder:
h) Develop a full exergy accounting per cycle, in kJ. Let T0 = 300 K, p0 = 1 bar (See image below).
i) Devise and evaluate the exergetic efficiency for the cycle.
part h
Transcribed Image Text:Develop a full exergy accounting per cycle, in kJ. Let To = 300 K, po = 1 bar.
Exergy In
i
kJ
Disposition of the Exergy:
Exergy out:
Net Work
i
kJ
Heat Rejection
i
kJ
Exergy Destroyed
OkJ
Total Exergy
(out or destroyed)
i
kJ
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