4. An ideal Otto engine with 15% clearance (15% of the volume displacement) operates on 0.227kg/s of air; intake is 100.58kPaa, 37.7°C. The energy released during combustion is 110kW. For air standard cycle, compute (a) Pressure (kPaa), Volume (m³/s) and Temperature ("C) in each state point of the cycle (b) work produced by the cycle (kW), (c) thermal efficiency (%) and (d) the mean effective pressure of the cycle (kPaa).
4. An ideal Otto engine with 15% clearance (15% of the volume displacement) operates on 0.227kg/s of air; intake is 100.58kPaa, 37.7°C. The energy released during combustion is 110kW. For air standard cycle, compute (a) Pressure (kPaa), Volume (m³/s) and Temperature ("C) in each state point of the cycle (b) work produced by the cycle (kW), (c) thermal efficiency (%) and (d) the mean effective pressure of the cycle (kPaa).
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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4. Draw a figure or graph that will support the problem. Explain each step by step formula.
![4. An ideal Otto engine with 15% clearance (15% of the volume displacement)
operates on 0.227kg/s of air; intake is 100.58kPaa, 37.7°C. The energy released
during combustion is 110kW. For air standard cycle, compute (a) Pressure (kPaa),
Volume (m³/s) and Temperature (°C) in each state point of the cycle (b) work
produced by the cycle (kW), (c) thermal efficiency (%) and (d) the mean effective
pressure of the cycle (kPaa).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fad58c36b-7653-4f2a-b3bf-65a8ee0b5da4%2Ff9543166-b6a8-44df-8bb6-2b2eb1a885fb%2F0708u9l_processed.jpeg&w=3840&q=75)
Transcribed Image Text:4. An ideal Otto engine with 15% clearance (15% of the volume displacement)
operates on 0.227kg/s of air; intake is 100.58kPaa, 37.7°C. The energy released
during combustion is 110kW. For air standard cycle, compute (a) Pressure (kPaa),
Volume (m³/s) and Temperature (°C) in each state point of the cycle (b) work
produced by the cycle (kW), (c) thermal efficiency (%) and (d) the mean effective
pressure of the cycle (kPaa).
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