State 1 for a dual combustion engine is p = 1 atm and T1= 60.3°C; r = 18; at the end constant volume combustion process the pressure is 7695 kPa, r= 1.5. Base on 1kg/cycle of a hot-air standard with k clearance, (b) p, V, and T at each corner point on the cycle, (c) WNET» (d) e, and (e} 1.31, determine (a) the percentage %3D Pm Ans. (a) 5.88% (h) 0.9443 m.0.05246 m3, 4468 kPa, 816.5 K, 1406.2 K,
State 1 for a dual combustion engine is p = 1 atm and T1= 60.3°C; r = 18; at the end constant volume combustion process the pressure is 7695 kPa, r= 1.5. Base on 1kg/cycle of a hot-air standard with k clearance, (b) p, V, and T at each corner point on the cycle, (c) WNET» (d) e, and (e} 1.31, determine (a) the percentage %3D Pm Ans. (a) 5.88% (h) 0.9443 m.0.05246 m3, 4468 kPa, 816.5 K, 1406.2 K,
Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![5. State 1 for a dual combustion engine is p = 1 atm and T1= 60.3°C; r = 18; at the end
constant volume combustion process the pressure is 7695 kPa, r= 1.5. Base on
1kg/cycle of a hot-air standard with k
clearance, (b) p, V, and T at each corner point on the cycle, (c) WNET (d) e̟ and (e] -
%3D
1.31, determine (a) the percentage
%3D
Pm
Ans. (a} 5.88% (b) 0.9443 m,0.05246 m³, 4468 kPa, 816.5 K, 1406.2 K,
0.07869 m, 2109.3 K, 296.8 kPa, 976.3 K; (c) 803.5 k]; (d) 57.43%; (e) 900 kPa](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F51c98a6b-0497-42a7-aa5b-d0ac15bdef0f%2F9b727a72-d459-4c93-ac0a-e9cc7f33c7c4%2F9bd1te_processed.png&w=3840&q=75)
Transcribed Image Text:5. State 1 for a dual combustion engine is p = 1 atm and T1= 60.3°C; r = 18; at the end
constant volume combustion process the pressure is 7695 kPa, r= 1.5. Base on
1kg/cycle of a hot-air standard with k
clearance, (b) p, V, and T at each corner point on the cycle, (c) WNET (d) e̟ and (e] -
%3D
1.31, determine (a) the percentage
%3D
Pm
Ans. (a} 5.88% (b) 0.9443 m,0.05246 m³, 4468 kPa, 816.5 K, 1406.2 K,
0.07869 m, 2109.3 K, 296.8 kPa, 976.3 K; (c) 803.5 k]; (d) 57.43%; (e) 900 kPa
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