after TDC, the maximum cylinder pressure and temperature assuming that the engine operates with the ideal Otto air cycle and that the heat added per cycle is 1500 kJ/kg, ⚫ the thermal efficiency of the engine assuming that it operates with the ideal Otto air cycle as stated before, ⚫ the mean effective pressure of the engine assuming that it operates with the ideal Otto air cycle as stated before, ⚫ the ratio and the actual air/fuel ratio (A/F) of the combustion process in the engine, ⚫ the molar composition of the combustion products of the engine assuming complete combustion of 1 mole of gasoline, ⚫ the total volumetric efficiency of the engine at 4000rpm, ⚫the brake mean effective pressure of the engine, ⚫ the mechanical efficiency of the engine, the brake specific fuel consumption of the engine, ⚫ the thermal efficiency of the engine, ⚫the velocity of air at the venturi throat, ⚫the pressure drop of air at the venturi throat, the diameter at the throat of the venturi. A three cylinder four stroke atmospheric Otto engine has a compression ratio of 10.5 and operates with a carburetor using gasoline (C7H17) and 5% excess of air. The cylinder bore is 98mm, the stroke is 102mm and the length of the connecting rod is 163.2mm. The engine operates at 4000 rpm with a torque output of 184 Nm and the work produced per cylinder and engine cycle is 850 J. Fuel consumption is measured equal to 19 kg/h, the density of gasoline is 760 kg/m³ and the lower heating value of the fuel is 44.2 MJ/kg. The free surface of gasoline in the tank of the carburetor is 5mm below the level of the fuel injector. The fuel injector has a diameter of 1.3mm and a discharge coefficient of 0.65. The discharge coefficient of the carburetor venturi is 0.80. Air is assumed incompressible and ambient conditions are at 20°C and 101.3kPa. Determine the following: ⚫ the total displacement volume of the engine, ⚫ the dead volume of each cylinder, ⚫ the piston speed at 4000rpm and at a crankshaft angle 55° after TDC, ⚫ the acceleration of the piston at 4000 rpm and at a crankshaft angle 55° after TDC, ⚫ the volume of the combustion chamber at 4000rpm and at a crankshaft angle 55°

The questions are in the images.

Transcribed Image Text:

after TDC, the maximum cylinder pressure and temperature assuming that the engine operates with the ideal Otto air cycle and that the heat added per cycle is 1500 kJ/kg, ⚫ the thermal efficiency of the engine assuming that it operates with the ideal Otto air cycle as stated before, ⚫ the mean effective pressure of the engine assuming that it operates with the ideal Otto air cycle as stated before, ⚫ the ratio and the actual air/fuel ratio (A/F) of the combustion process in the engine, ⚫ the molar composition of the combustion products of the engine assuming complete combustion of 1 mole of gasoline, ⚫ the total volumetric efficiency of the engine at 4000rpm, ⚫the brake mean effective pressure of the engine, ⚫ the mechanical efficiency of the engine, the brake specific fuel consumption of the engine, ⚫ the thermal efficiency of the engine, ⚫the velocity of air at the venturi throat, ⚫the pressure drop of air at the venturi throat, the diameter at the throat of the venturi.

Transcribed Image Text:

A three cylinder four stroke atmospheric Otto engine has a compression ratio of 10.5 and operates with a carburetor using gasoline (C7H17) and 5% excess of air. The cylinder bore is 98mm, the stroke is 102mm and the length of the connecting rod is 163.2mm. The engine operates at 4000 rpm with a torque output of 184 Nm and the work produced per cylinder and engine cycle is 850 J. Fuel consumption is measured equal to 19 kg/h, the density of gasoline is 760 kg/m³ and the lower heating value of the fuel is 44.2 MJ/kg. The free surface of gasoline in the tank of the carburetor is 5mm below the level of the fuel injector. The fuel injector has a diameter of 1.3mm and a discharge coefficient of 0.65. The discharge coefficient of the carburetor venturi is 0.80. Air is assumed incompressible and ambient conditions are at 20°C and 101.3kPa. Determine the following: ⚫ the total displacement volume of the engine, ⚫ the dead volume of each cylinder, ⚫ the piston speed at 4000rpm and at a crankshaft angle 55° after TDC, ⚫ the acceleration of the piston at 4000 rpm and at a crankshaft angle 55° after TDC, ⚫ the volume of the combustion chamber at 4000rpm and at a crankshaft angle 55°