The combustion of fuel in your car engine requires oxygen gas, which is supplied as air...
The combustion of fuel in your car engine requires oxygen gas, which is supplied as air (21% oxygen molecules) into the engine. Consider a car that is using 100% ethanol, C2H5OH, as fuel. If your engine intakes 3.7L of air per minute at 1.00 atm and 25°C, what is the maximum volume of ethanol (0.789g/mL) that can be burned in one minute?
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The combustion of fuel in your car engine requires
oxygen gas, which is supplied as air...
The combustion of fuel in your car engine requires oxygen gas, which is supplied as air...
The combustion of fuel in your car engine requires oxygen gas, which is supplied as air (21% oxygen molecules) into the engine. Consider a car that is using 100% ethanol, C2H5OH, as fuel. If your engine intakes 4.11 L of air per minute at 1.00 atm and 25ºC, what is the maximum volume of ethanol (0.789 g/mL) that can be burned per minute? Hint: You can ignore the "per minute" information because both the ethanol and air are being quantified...
> Consider that the composition of an automotive engine fuel is represented by C^Hi8 (a) How many cubic feet per min...
> Consider that the composition of an automotive engine fuel is represented by C^Hi8 (a) How many cubic feet per minute of air is required by a 4- stroke engine with a displacement volume of 3200.3 ? (b) Now consider that the exhaust emissions contain 2000 ppm of CO, 100ppm of HC, and 50 ppm of NO. If the stoichiometric amount of air is used for combustion, determine the pounds per minute of CO, HC, and NO emitted. The engine...
An air-breathing gas-turbine jet engine operates at SSSF with complete combustion of 1 kmol / s of liquid ethanol fuel (C₂H₅OH)
An air-breathing gas-turbine jet engine operates at SSSF with complete combustion of 1 kmol / s of liquid ethanol fuel (C₂H₅OH). The given air-fuel ratio is 33 kg-air/kg-fuel. The constant pressure combustion process (2 → 3) results in a small amount of heat transfer out to the surroundings. Assume the inlet air is composed of 21 % O₂ and 79 % N₂(1 O₂+3.76 N₂)FIND the theoretical air-fuel ratio, AFTHEORETICAL= _______ kg-air/kg-fuelFIND the concentration of CO₂ in the exhaust gas on...
Gas fired furnace (a) Oxygen-gas combustion is being pursued for use as a supplement and/or replacement...
Gas fired furnace (a) Oxygen-gas combustion is being pursued for use as a supplement and/or replacement for conventional air-gas chemistry in a variety of applications. The first order design assessment in such instances is illustrated in part by the following thermochemical analysis of an acetylene cutting torch burning oxygen or air. Using ideal complete combustion of acetylene at equivalence ratio values of 1.00, 0.83, 0.71, determine (i) the mass of oxidant consumed per mass of fuel burned for oxygen and...
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...
3. A rich fuel-air ratio of propane in burned in an internal combustion engine. The analysis...
3. A rich fuel-air ratio of propane in burned in an internal combustion engine. The analysis exhaust gas by the exhaust analyzer shows that CO2 = 17%, C3H8=0.5%, with the rest being N2 and some traces of H20. For this case Calculate: a) Write the balanced chemical equation for propane b) Compute air-fuel ratio and equivalence ratio when the ideal AFR is 14.8 ran
A compression ignition engine is being analyzed. The residual gas fraction is xr=0.02. The fuel-to-air equivalence ratio is...
A compression ignition engine is being analyzed. The residual gas fraction is xr=0.02. The fuel-to-air equivalence ratio is f=0.6. At the end of the compression stroke the temperature is T2=1300 K and specific volume is v2=0.19 m3/kg-air. The maximum cycle pressure is P3=4000 kPa. At the end of the power stroke the specific volume is 1.00 m3/kg-air. Calculate the temperature at the end of the combustion process, T3b, and calculate the work done [kJ/kg-air] during the power stroke.
5. 20% A 2.4-L gasoline fuelled internal combustion engine produces a maximum power of 220 kW...
5. 20% A 2.4-L gasoline fuelled internal combustion engine produces a maximum power of 220 kW when the fuel is burned stoichiometrically with air. The thermal efficiency of the engine at this maximum power is 43%. Methanol (CH3OH) is to be used as an alternative biofuel for this engine. The stoichiometric air-fuel ratio for gasoline is 14.6. Assume a combustion efficiency of 98%. The lower heating values of gasoline and methanol are 44 MJ/kg and 20 MJ/kg, respectively. Consider the...
Consider a rocket engine using ethyl alcohol (ethanol), C2H,OH as fuel and oxygen, O2, as oxidizer. Ethyl alcohol and oxygen enter the chamber as, respectively, a liquid at temperature T,C2H5OH = T,-...
Consider a rocket engine using ethyl alcohol (ethanol), C2H,OH as fuel and oxygen, O2, as oxidizer. Ethyl alcohol and oxygen enter the chamber as, respectively, a liquid at temperature T,C2H5OH = T,-29 8.1 5 K and a gas at temperature to2 =-40°C. The combustion reaction is o.0 where Alco , Aco2 , M2 , 20 arethe mole fractions of the products. The table below shows the mole fractions of the combustion products and their average specific heats and heats of...
To achieve good combustion, air (oxygen) must be present and thoroughly mixed with fuel (waste) to...
To achieve good combustion, air (oxygen) must be present and thoroughly mixed with fuel (waste) to produce CO2 and H2O. During combustion, 79% of inert Nitrogen interferes with combustion process. Thus a good combustion do require excess air beyond stoichiometric amount of air (oxygen). Excess air is also used for incinerator temperature control since it absorbs heat from the combustion reaction! 1900 lbs/hr of a waste mixture of 35% Benzene, 60% Toluene and 5% water is incinerated with 35% excess...
> Consider that the composition of an automotive engine fuel is represented by C^Hi8 (a) How many cubic feet per minute of air is required by a 4- stroke engine with a displacement volume of 3200.3 ? (b) Now consider that the exhaust emissions contain 2000 ppm of CO, 100ppm of HC, and 50 ppm of NO. If the stoichiometric amount of air is used for combustion, determine the pounds per minute of CO, HC, and NO emitted. The engine...
Gas fired furnace (a) Oxygen-gas combustion is being pursued for use as a supplement and/or replacement for conventional air-gas chemistry in a variety of applications. The first order design assessment in such instances is illustrated in part by the following thermochemical analysis of an acetylene cutting torch burning oxygen or air. Using ideal complete combustion of acetylene at equivalence ratio values of 1.00, 0.83, 0.71, determine (i) the mass of oxidant consumed per mass of fuel burned for oxygen and...
3. A rich fuel-air ratio of propane in burned in an internal combustion engine. The analysis exhaust gas by the exhaust analyzer shows that CO2 = 17%, C3H8=0.5%, with the rest being N2 and some traces of H20. For this case Calculate: a) Write the balanced chemical equation for propane b) Compute air-fuel ratio and equivalence ratio when the ideal AFR is 14.8 ran
5. 20% A 2.4-L gasoline fuelled internal combustion engine produces a maximum power of 220 kW when the fuel is burned stoichiometrically with air. The thermal efficiency of the engine at this maximum power is 43%. Methanol (CH3OH) is to be used as an alternative biofuel for this engine. The stoichiometric air-fuel ratio for gasoline is 14.6. Assume a combustion efficiency of 98%. The lower heating values of gasoline and methanol are 44 MJ/kg and 20 MJ/kg, respectively. Consider the...
Consider a rocket engine using ethyl alcohol (ethanol), C2H,OH as fuel and oxygen, O2, as oxidizer. Ethyl alcohol and oxygen enter the chamber as, respectively, a liquid at temperature T,C2H5OH = T,-29 8.1 5 K and a gas at temperature to2 =-40°C. The combustion reaction is o.0 where Alco , Aco2 , M2 , 20 arethe mole fractions of the products. The table below shows the mole fractions of the combustion products and their average specific heats and heats of...
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