A diesel engine with an engine volume of 3.5 L and an engine speed of 3000...

A diesel engine operates at 3000 rpm on a standard Diesel cycle has a compression ratio...

A diesel engine operates at 3000 rpm on a standard Diesel cycle has a compression ratio of 14. The state of air at the beginning of the compression process is 98 kPa and 24 ?C. The maximum temperature in the cycle is not exceed 1850 ?C. Assume diesel fuel has a heating value of 45 MJ/kg. Use the PG model. a) Determine the thermal efficiency. b) Determine the specific fuel consumption. (kg/kJ) c) What-if Scenario: What would the thermal efficiency...

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 diesel engine is fitted with a turbocharger. The engine is tested at constant speed of...

A diesel engine is fitted with a turbocharger. The engine is tested at constant speed of 500 r.p.m at atmospherie conditions of I bar and 27 C, the power output is 7000 kW, bmep is 15 bars and fuel consumption is 1250 kg/h an air intake manifold pressure is 2.3 bars, exhaust manifold pressure is 1.8 bars, and turbine inlet gas temperature is 670 C and leave the turbine a pressure of 1 bar. The volumetric efficiency of the engine...

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 naturally aspirated six cylinder, 6.128-L (374-in^3) diesel engine consumes 21.9 kg/h (48 lb/h) of fuel...

A naturally aspirated six cylinder, 6.128-L (374-in^3) diesel engine consumes 21.9 kg/h (48 lb/h) of fuel and 440 kg/h (970 lb/h) of air while running at 2400 r/min (rpm) and producing 93.8 kW (126 hp) of brake power. Assume the barometric pressure is 100 kPa (14.5 psi) and the ambient air temperature is 300 degrees K (540 degrees R). A. Calculate the theoretical air consumption of the engine. B. Calculate the volumetric efficiency. C. Calculate the air to fuel ratio....

A naturally aspirated six cylinder, 6.128-L (374-in^3) diesel engine consumes 21.9 kg/h (48 lb/h) of fuel...

A naturally aspirated six cylinder, 6.128-L (374-in^3) diesel engine consumes 21.9 kg/h (48 lb/h) of fuel and 440 kg/h (970 lb/h) of air while running at 2400 r/min (rpm) and producing 93.8 kW (126 hp) of brake power. Assume the barometric pressure is 100 kPa (14.5 psi) and the ambient air temperature is 300 degrees K (540 degrees R). A. Calculate the theoretical air consumption of the engine. B. Calculate the volumetric efficiency. C. Calculate the air to fuel ratio....

Problem 2. A novel gaseous hydrocarbon fuel CxHy is proposed for use in spark-ignition engines. A...

Problem 2. A novel gaseous hydrocarbon fuel CxHy is proposed for use in spark-ignition engines. A sample analysis of this fuel revealed that its molecular weight is 140 kg/kmol and its molar H/C ratio is 2. In order to evaluate some of its properties, the fuel was burned with stoichiometric atmospheric air in a constant pressure, steady-flow reactor. The fuel and air entered the reactor at 25 C, and the products of complete combustion were cooled to 25 C. At...

An automobile uses a four-cylinder engine. Within each cylinder of the engine, the processes can be...

An automobile uses a four-cylinder engine. 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 330K and 1.5 bar, respectively. In the cycle, the maximum temperature is 2200K when the engine operates at 3000 RPM. If the engine compression ratio is 9.5, determine (a)  the air mass flow rate to the engine in g/s. (b) the...

chevy malibu uses gm ltg engine that has 4 cylinders. the process within each cylinder of...

chevy malibu uses gm ltg engine that has 4 cylinders. the process within each cylinder of the engine can be modled 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 the maximum temperature is the cycle when the engine operates at 3000 rpm is 2200k. the engine compression ratio is 9.5. determine air mass flow rate to the engine,...

1. A combustion chamber is fed with 50 kmol/h of butane and 2000 kmol/h of air....

1. A combustion chamber is fed with 50 kmol/h of butane and 2000 kmol/h of air. Calculate the % excess air used and composition of the gases leaving combustion reactor, assuming complete combustion of butane. 2. In manufacture of chlorine, feed containing hydrochloric acid gas and air are fed to the reactor. The product gases leaving the reactor are found to contain 13.2% HCl, 6.3% 02, 42.9% N2, 30% Cl2 and 7.6% H2O (by weight). Calculate: i) The percent excess...