Homework Answers
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P2 = pressure at the end of combustion.
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The combustion in a gasoline engine may be approximated by a constant volume heat addition process....
The combustion in a gasoline engine may be approximated by a constant volume heat addition process....
The combustion in a gasoline engine may be approximated by a constant volume heat addition process. The cylinder contains the air-fuel mixture before combustion and the combustion gases after it, and both may be approximated as air, an ideal gas. In a gasoline engine, the cylinder conditions are 1.18 MPa and 450°C before the combustion and 1900°C after it. Determine the pressure at the end of the combustion process. Combustion chamber P MPa 450°C The pressure is MPa. A rigid...
A four cylinder gasoline engine with a clearance volume of 225 cm3 and cylinder volumes of...
A four cylinder gasoline engine with a clearance volume of 225 cm3 and cylinder volumes of 1900 cm3 is operating at 5000 rpm. Air enters at 28°C temperature and 97 kPa pressure, and pressure before and after combustion are 1500 and 6500 kPa Determine: (a) Power produced (b) Heat added during combustion (c) Heat rejected (d) Thermal efficiency 5.
An Otto engine is operating with natural gas which can be approximated as an ideal gas....
An Otto engine is operating with natural gas which can be approximated as an ideal gas. Assuming the engine is at standard condition (25°C, 1 atm) before the compression process. Also, temperature of the Otto cycle after the combustion process is 1500 K. (a) Assuming compression ratio of the Otto engine as 8, 9 and 10, determine the corresponding temperatures of the natural gas-air mixture (natural gas with 100% excess air) after the compression. (b) Determine the thermal energy release...
Consider the effects of exhaust gas recirculation on the combustion process. Mixing exhaust gas with the...
Consider the effects of exhaust gas recirculation on the combustion process. Mixing exhaust gas with the fuel-air gas changes the initial temperature, density, molecular weight and effective heat of combustion of the charge within an SI engine. Consider an SI engine with compression ratio 9 which uses fuel-air mixture of the equivalence ratio 1.1. The fuel-air mixture enters the intake manifold at a pressure p1 and temperature 290K. Perform an analysis of the effect of EGR on an ideal cycle....
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)...
n-Dodecane CHa is burned with 40% excess air during a combustion process. Assuming total combustion and...
n-Dodecane CHa is burned with 40% excess air during a combustion process. Assuming total combustion and a total pressure of 100 kPa, determine: CH Products COMBUSTION CHAMBER 100 kPa Air (40% excess) a) (25%) Write the combustion equation and calculate the air to fuel ratio. AF = kg air kg fuel b) (10%) The partial pressure of the oxygen in the products (assume that all products are ideal gases). Po, kea
A gasoline engine has a compression ratio of 8.00 and uses a gas for which y...
A gasoline engine has a compression ratio of 8.00 and uses a gas for which y = 1.40. (a) What is the efficiency of the engine if it operates in an idealized Otto cycle? 0 % (b) If the actual efficiency is 15.0%, what fraction of the fuel is wasted as a result of friction and energy losses by heat that could by avoided in a reversible engine? (Assume complete combustion of the air-fuel mixture.) %
Consider an internal combustion engine like that used in automobiles. The most common fuel used here...
Consider an internal combustion engine like that used in automobiles. The most common fuel used here is gasoline which is a mixture of hydrocarbons, and an octane rating is given for standardization. Therefore, we will approximate gasoline as being composed of the hydrocarbon, octane, C8H18. Another fuel that is common in racing applications is nitromethane, CH3NO2, used in top fuel dragsters. Let’s consider the combustion of each fuel with oxygen in an internal combustion engine. Let the 8-cylinder engine displacement...
The volume inside the cylinders of all of the pistons in a combustion engine is typically...
The volume inside the cylinders of all of the pistons in a combustion engine is typically specified in cc (cm3). A typical 4-cylinder car engine has a cylinder volume of 3900. cm3. Immediately after ignition, the pressure in the cylinder is approximately 125 atm and the temperature is 320. °C. Assuming the gas mixture in the cylinder behaves ideally, and is occupying the maximum volume of the cylinders, how many moles of gas are in the cylinders immediately after ignition?
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to...
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. The gas-turbine cycle of a combined gas-steam power plant has a pressure ratio of 8. Air enters the compressor at 290 K and the turbine at 1400 K. The combustion gases leaving the gas turbine are used to heat the steam at 15 MPa to 450°C in a heat exchanger. The combustion gases leave the heat exchanger at 247°C. Steam...
The combustion in a gasoline engine may be approximated by a constant volume heat addition process. The cylinder contains the air-fuel mixture before combustion and the combustion gases after it, and both may be approximated as air, an ideal gas. In a gasoline engine, the cylinder conditions are 1.18 MPa and 450°C before the combustion and 1900°C after it. Determine the pressure at the end of the combustion process. Combustion chamber P MPa 450°C The pressure is MPa. A rigid...
A four cylinder gasoline engine with a clearance volume of 225 cm3 and cylinder volumes of 1900 cm3 is operating at 5000 rpm. Air enters at 28°C temperature and 97 kPa pressure, and pressure before and after combustion are 1500 and 6500 kPa Determine: (a) Power produced (b) Heat added during combustion (c) Heat rejected (d) Thermal efficiency 5.
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)...
n-Dodecane CHa is burned with 40% excess air during a combustion process. Assuming total combustion and a total pressure of 100 kPa, determine: CH Products COMBUSTION CHAMBER 100 kPa Air (40% excess) a) (25%) Write the combustion equation and calculate the air to fuel ratio. AF = kg air kg fuel b) (10%) The partial pressure of the oxygen in the products (assume that all products are ideal gases). Po, kea
A gasoline engine has a compression ratio of 8.00 and uses a gas for which y = 1.40. (a) What is the efficiency of the engine if it operates in an idealized Otto cycle? 0 % (b) If the actual efficiency is 15.0%, what fraction of the fuel is wasted as a result of friction and energy losses by heat that could by avoided in a reversible engine? (Assume complete combustion of the air-fuel mixture.) %
NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. The gas-turbine cycle of a combined gas-steam power plant has a pressure ratio of 8. Air enters the compressor at 290 K and the turbine at 1400 K. The combustion gases leaving the gas turbine are used to heat the steam at 15 MPa to 450°C in a heat exchanger. The combustion gases leave the heat exchanger at 247°C. Steam...
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