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1. An ideal otto cycle engine with 15% clearance operates on 0.227 kg/s of air: intake state is 100.58 kPa, 37.7°C. The energy released during combustion is 110 kJ/s. For hot-air standard, with k = 1.32, compute: a. Pat each point in kPa b. T at each point in K c. V at each point in

1. An ideal otto cycle engine with 15% clearance operates on 0.227 kg/s of air: intake state is 100.58 kPa, 37.7°C. The energy released during combustion is 110 kJ/s. For hot-air standard, with k = 1.32, compute: a. Pat each point in kPa b. T at each point in K c. V at each point in

Elements Of Electromagnetics
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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Provide a complete and logical solution for each problem. If linear interpolation is required in the problem, tabulated values is considered as a solution. Also, provide T-S or P-V diagrams for each problem 1. An ideal otto cycle engine with 15% clearance operates on 0.227 kg/s of air: intake state is 100.58 kPa, 37.7°C. The energy released during combustion is 110 kJ/s. For hot-air standard, with k = 1.32, compute: a. Pat each point in kPa b. T at each point in K c. V at each point in m d. Efficiency of the cycle 2. For a Rankine Cycle, steam at 5 MPa, 450°C expands to 0.036 MPa. For 10 kg/s of steam, determine: a. Heat added b. Heat rejected c. Work of turbine d. Thermal Efficiency
Transcribed Image Text:Provide a complete and logical solution for each problem. If linear interpolation is required in the problem, tabulated values is considered as a solution. Also, provide T-S or P-V diagrams for each problem 1. An ideal otto cycle engine with 15% clearance operates on 0.227 kg/s of air: intake state is 100.58 kPa, 37.7°C. The energy released during combustion is 110 kJ/s. For hot-air standard, with k = 1.32, compute: a. Pat each point in kPa b. T at each point in K c. V at each point in m d. Efficiency of the cycle 2. For a Rankine Cycle, steam at 5 MPa, 450°C expands to 0.036 MPa. For 10 kg/s of steam, determine: a. Heat added b. Heat rejected c. Work of turbine d. Thermal Efficiency
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