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6) One kilogram of air at 18 °C and 102 kPa is supplied...
A gasoline engine operates on the air standard Otto cycle. The air intake to the engine...
A gasoline engine operates on the air standard Otto cycle. The air intake to the engine is at 300K and 95kPa (State 1). The air is compressed in the engine to an unknown pressure. Heat is then added during combustion at an amount of 1100 kJ/kg. At the end of the heat addition process, the temperature reaches 2200K. Compute the following: (a) the temperature at the end of the compression process, (b) the volumetric compression ratio of this engine, (c)...
Q1. An ideal dual cycle engine works with a stroke volume of 10 litres of air...
Q1. An ideal dual cycle engine works with a stroke volume of 10 litres of air with a compression ratio of 16. The pressure and temperature of air before isentropic compression is 1 bar and 300 K respectively. If the heat is added at a constant pressure of 70 bar and 5% of the stroke, determine: (10 M) i. ii. Pressure ratio Cut-off ratio iii. iv. V. vi. vii. viii. Mass of air contained in the cylinder Heat added per...
15. An air-standard, ideal gas cycle with limited-pressure combustion is used to evaluate an idea...
15. An air-standard, ideal gas cycle with limited-pressure combustion is used to evaluate an ideal compression ignition engine. The compression ratio is 12. The maximum temperature in the cycle is 2040 °F. The minimum temperature and pressure in the cycle is 40 OF and 20 psia, respectively. The coefficient β=1.2 (β is the ratio of the volume after to the volume before the constant pressure heat input process). Calculate the heat added during combustion per lbm of air, and the...
An ideal Diesel cycle has a compression ratio of 17 and a cut-off ratio of 2....
An ideal Diesel cycle has a compression ratio of 17 and a cut-off ratio of 2. At the beginning of the compression process P = 100 kPa and T = 27◦C. Find the temperature, pressure and specific volume at states 1, 2, 3, and 4. Find the heat supplied, heat rejected, work done by the system, work done on the system, net work done, and thermal efficiency. Calculate the thermal efficiency of a Carnot cycle operating between the same temperature...
A Diesel cycle has a compression ratio of 22 and begins its compression at 80 kPa and 15 C. The maximum cycle temperature is 1200°C, Utilize air-standard assumptions. The properties of air at room te...
A Diesel cycle has a compression ratio of 22 and begins its compression at 80 kPa and 15 C. The maximum cycle temperature is 1200°C, Utilize air-standard assumptions. The properties of air at room temperature are R: 0287 The 3 kPam2kg K p 100derd kPa-m /kg-K, Cpー1.005 kJ/kg-K, cv-0718 kJ/kg.K. and k= 1.4 Determine the thermal efficiency of this cycle using variable specific heats at room temperature. Use data from the tables The thermal efficiency of this cycle is 68.97...
4. An Ideal diesel engine has a compression ratio of 20 and uses air as the...
4. An Ideal diesel engine has a compression ratio of 20 and uses air as the working fluid. The state of air at the beginning of the compression process is 95kPa and 20°C. If the maximum temperature in the cycle is not to exceed 2200K, determine a) the thermal efficiency and b) the mean effective pressure. Assume constant specific heats for air at room temperature. 5. An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio...
2. An ideal Diesel cycle has a compression ratio of 18 and a cut-off ratio of...
2. An ideal Diesel cycle has a compression ratio of 18 and a cut-off ratio of 2. At the beginning of the compression process P = 95 kPa and T = 20°C. (a) Find the temper- ature, pressure and specific volume at states 1, 2, 3, and 4. (b) Find the heat supplied, heat rejected, work done by the system, work done on the system, net work done, and thermal efficiency. (c) Calculate the thermal efficiency of a Carnot cycle...
4. A4.6 L spark ignition engine operates on the ideal Otto cycle with a compression ratio of 10. At the beginning of the compression process the air is at 107 kPa and 21 C. The maximum cycle temp...
4. A4.6 L spark ignition engine operates on the ideal Otto cycle with a compression ratio of 10. At the beginning of the compression process the air is at 107 kPa and 21 C. The maximum cycle temperature is 1116°C. Accounting for variable specific heats, determine: (a) the heat addition per cycle in kJ. Ans: 3.368 kJ (b) the net work per cycle in kJ. Ans: 1.907 kJ (c) the mean effective pressure in kPa. Ans: 460.6 kPa (d) the...
An ideal dual combustion cycle operates on 454 kg. of air. At the beginning of compression,...
An ideal dual combustion cycle operates on 454 kg. of air. At the beginning of compression, the air is at 96.53 kPa, 43.3-degree Celsius. Pressure ratio is equal to 1.5, cut-off ratio is 1.6, and compression ratio is 11. Using the air properties, determine (a) the percentage clearance (b) the pressure, the volume, and the temperature at each corner of the cycle, (c) Heat added, Heat rejected, and work net, (d) the thermal efficiency (e) the MEP in kPa.
A four-stroke 2.0 Litre compression ignition engine operates on a Diesel cycle with a compression ratio...
A four-stroke 2.0 Litre compression ignition engine operates on a Diesel cycle with a compression ratio of 20 and a cut-off ratio of 1.8. Air is at 30°C and 100 kPa at the beginning of the compression process. It may be assumed that for the air, the specific heat, Cp and gas constant, R are 1.005 and 0.287 kJ/kg.K, respectively. Calculate: the temperature (K) of the air at the end of the following processes: (i) (a) compression (ii) combustion, (ii...
A gasoline engine operates on the air standard Otto cycle. The air intake to the engine is at 300K and 95kPa (State 1). The air is compressed in the engine to an unknown pressure. Heat is then added during combustion at an amount of 1100 kJ/kg. At the end of the heat addition process, the temperature reaches 2200K. Compute the following: (a) the temperature at the end of the compression process, (b) the volumetric compression ratio of this engine, (c)...
Q1. An ideal dual cycle engine works with a stroke volume of 10 litres of air with a compression ratio of 16. The pressure and temperature of air before isentropic compression is 1 bar and 300 K respectively. If the heat is added at a constant pressure of 70 bar and 5% of the stroke, determine: (10 M) i. ii. Pressure ratio Cut-off ratio iii. iv. V. vi. vii. viii. Mass of air contained in the cylinder Heat added per...
15. An air-standard, ideal gas cycle with limited-pressure combustion is used to evaluate an ideal compression ignition engine. The compression ratio is 12. The maximum temperature in the cycle is 2040 °F. The minimum temperature and pressure in the cycle is 40 OF and 20 psia, respectively. The coefficient β=1.2 (β is the ratio of the volume after to the volume before the constant pressure heat input process). Calculate the heat added during combustion per lbm of air, and the...
A Diesel cycle has a compression ratio of 22 and begins its compression at 80 kPa and 15 C. The maximum cycle temperature is 1200°C, Utilize air-standard assumptions. The properties of air at room temperature are R: 0287 The 3 kPam2kg K p 100derd kPa-m /kg-K, Cpー1.005 kJ/kg-K, cv-0718 kJ/kg.K. and k= 1.4 Determine the thermal efficiency of this cycle using variable specific heats at room temperature. Use data from the tables The thermal efficiency of this cycle is 68.97...
4. An Ideal diesel engine has a compression ratio of 20 and uses air as the working fluid. The state of air at the beginning of the compression process is 95kPa and 20°C. If the maximum temperature in the cycle is not to exceed 2200K, determine a) the thermal efficiency and b) the mean effective pressure. Assume constant specific heats for air at room temperature. 5. An aircraft engine operates on a simple ideal Brayton cycle with a pressure ratio...
2. An ideal Diesel cycle has a compression ratio of 18 and a cut-off ratio of 2. At the beginning of the compression process P = 95 kPa and T = 20°C. (a) Find the temper- ature, pressure and specific volume at states 1, 2, 3, and 4. (b) Find the heat supplied, heat rejected, work done by the system, work done on the system, net work done, and thermal efficiency. (c) Calculate the thermal efficiency of a Carnot cycle...
4. A4.6 L spark ignition engine operates on the ideal Otto cycle with a compression ratio of 10. At the beginning of the compression process the air is at 107 kPa and 21 C. The maximum cycle temperature is 1116°C. Accounting for variable specific heats, determine: (a) the heat addition per cycle in kJ. Ans: 3.368 kJ (b) the net work per cycle in kJ. Ans: 1.907 kJ (c) the mean effective pressure in kPa. Ans: 460.6 kPa (d) the...
An ideal dual combustion cycle operates on 454 kg. of air. At the beginning of compression, the air is at 96.53 kPa, 43.3-degree Celsius. Pressure ratio is equal to 1.5, cut-off ratio is 1.6, and compression ratio is 11. Using the air properties, determine (a) the percentage clearance (b) the pressure, the volume, and the temperature at each corner of the cycle, (c) Heat added, Heat rejected, and work net, (d) the thermal efficiency (e) the MEP in kPa.
A four-stroke 2.0 Litre compression ignition engine operates on a Diesel cycle with a compression ratio of 20 and a cut-off ratio of 1.8. Air is at 30°C and 100 kPa at the beginning of the compression process. It may be assumed that for the air, the specific heat, Cp and gas constant, R are 1.005 and 0.287 kJ/kg.K, respectively. Calculate: the temperature (K) of the air at the end of the following processes: (i) (a) compression (ii) combustion, (ii...
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