A gas engine working on a four stroke cycle has a cylinder of 250 mm diameter,...

A four-cylinder, four-stroke engine is built into an automobile. Within each cylinder of the engine, the...

A four-cylinder, four-stroke engine is built into an automobile. Within each cylinder of the engine, the processes can be modeled as an air-standard Otto cycle. At the beginning of the compression process, the cylinder volume is .559 L. The temperature and pressure are 330 K and 1.5 bar, respectively. In the cycle, the maximum temperature is 2200 K when the engine operates at 3000 RPM. (4-stroke engine, 2 rotations per cycle, MW of air = 28.97 kg/kmol) If the engine...

A 4 cylinder 4 stroke 3.2 L diesel engine with bore = 11 cm and stroke...

A 4 cylinder 4 stroke 3.2 L diesel engine with bore = 11 cm and stroke =12.4 cm. the crank radius is 5.5 cm and with a connecting rod length 15 cm. the compression ratio of the engine is 21 and the combustion efficiency is 96.3 %. If the average speed of the car over the running life of the engine is 65 km/h and the total traveled distance of the engine is 250000 km. note: use the engine speed...

1. An eight-cylinder, two stroke cycle diesel engine with 13.6 cm bore and 16.1 cm stroke...

1. An eight-cylinder, two stroke cycle diesel engine with 13.6 cm bore and 16.1 cm stroke produces 97 kW of brake power at 2800 RPM. Compression ratio rc = 15.5:1
Calculate: * a) Engine displacement [m3 and cm3] 
 * b) Torque [N-m] 
 * c) Brake mean effective pressure [kPa] 
 * d) Clearance volume of one cylinder [m3 and cm3] 


a six-cylinder four stroke automobile engine is being designed to produce 75 kW at 2000 rpm...

a six-cylinder four stroke automobile engine is being designed to produce 75 kW at 2000 rpm with a bsfc of 300 g/kWh and a bmep of 12 bar. the engine is to have equal bore and stroke, and fueled with gasoline with a heat of combustion of 44510 kj/kg. (a) what should be the deisng displacement volume and bore? (b) what is the fuel consumption per cycle per cylinder? (c) what is the brake thermal efficiency?

A technician is studying the power stroke of a four-stroke engine and determines the following: As...

A technician is studying the power stroke of a four-stroke engine and determines the following: As the piston is forced down, the mixture of combustion products and air undergoes an adiabatic expansion. The engine is running at 2,300 cycles/min. The gauge pressure immediately before the expansion is 29.0 atm. The volumes of the mixture immediately before and after the expansion are 50.0 cm3 and 400 cm3, respectively (figure below). The time interval for the expansion is one-fourth the period of...

A 3.2 L, 5 cylinder, 4 stroke cycle diesel engine operates at 2,400 RPM. Fuel injection...

A 3.2 L, 5 cylinder, 4 stroke cycle diesel engine operates at 2,400 RPM. Fuel injection 20o bTDC From 5o Up to aTDC. The engine's volumetric efficiency is 0.95 and operates at a fuel equivalent ratio of 0.8. The fuel used is diesel, and the theoretical air-fuel ratio of diesel is 14.5. Calculate the following. (1) The fuel injection angle is 25o. Corresponding fuel injection time (2) Mass of air supplied to one cylinder for one cycle using volumetric efficiency...

. A twin-cylinder 2-stroke engine has a swept volume of 150 cm3 . The maximum power...

. A twin-cylinder 2-stroke engine has a swept volume of 150 cm3 . The maximum power output is 19 kW at 11,000 rpm. At this condition, the bsfc is .11kg/MJ and the gravimetric air/fuel ratio is 12:1. If ambient test conditions are 10 C, 1.03 bar and the fuel has a calorific value of 44 MJ/kg, calculate the bmep, the arbitrary overall efficiency and the volumetric efficiency.

In a motorcycle engine, a piston is forced down toward the crankshaft when the fuel in...

In a motorcycle engine, a piston is forced down toward the crankshaft when the fuel in the top of the piston’s cylinder undergoes combustion. The mixture of gaseous combustion products then expands adiabatically as the piston descends. Find the average power in (a) watts and (b) horsepower that is involved in this expansion when the engine is running at 3900 rpm, assuming that the gauge pressure immediately after combustion is 12 atm, the initial volume is 47 cm3, and the...

The mileage of a stationary twin cylinder petrol engine generating output power at 03 a rate...

The mileage of a stationary twin cylinder petrol engine generating output power at 03 a rate of 10kW per liter of stroke volume is 0.257 kg/kWh. Determine the efficiency of conversion of combustion heat energy into useful power inside the cylinder if the volume of charge after compression is 0.2 liters in each cylinder. The engine is operating with a compression ratio of 11:1 and the fuel has a calorific value of 44MJ/kg. The crank case of the engine is...

In a motorcycle engine, a piston is forced down toward the crankshaft when the fuel in...

In a motorcycle engine, a piston is forced down toward the crankshaft when the fuel in the top of the piston’s cylinder undergoes combustion. The mixture of gaseous combustion products then expands adiabatically as the piston descends. Find the average power in (a) watts and (b) horsepower that is involved in this expansion when the engine is running at 3700 rpm, assuming that the gauge pressure immediately after combustion is 14 atm, the initial volume is 50 cm^3, and the...