Ethylene (C2H4) gas at 25 ° C temperature and 1 atmosphere pressure burns by entering a...

Propane gas is burned using air; both are at 25°C and 1 atm. 150% excess air...

Propane gas is burned using air; both are at 25°C and 1 atm. 150% excess air (ie 250% of the theoretical air) is used. The products of the combustion are carbon dioxide(gas) and vapor water along with the excess oxygen. Predict the adiabatic flame temperature, in degrees K, in the steady-flow combustion chamber. Use the thermodynamic data from your textbook, Appendix E for all the required data.

Propane gas is burned using air; both are at 25°C and 1 atm. 150% excess air...

Propane gas is burned using air; both are at 25°C and 1 atm. 150% excess air (ie 250% of the theoretical air) is used. The products of the combustion are carbon dioxide(gas) and vapor water along with the excess oxygen. Predict the adiabatic flame temperature, in degrees K, in the steady-flow combustion chamber. Use the thermodynamic data from your textbook, Appendix E for all the required data Textbook: Introductory Chemical Engineering Thermodynamics (Ed. 2) by Elliott, J. Richard, Lira, Carl...

Methane gas (CH4) enters the combustion chamber of a gas turbine at 77°F, 40 lbf/in2 and...

Methane gas (CH4) enters the combustion chamber of a gas turbine at 77°F, 40 lbf/in2 and a molar flow rate of 1.7 lbmol/h and burns completely with air entering at 300°F, 40 lbf/in2. The combustion products leave the combustion chamber at T3 = 1420oF, 40 lbf/in2. The gas turbine operates adiabatically at steady state and air can be modeled as 21% O2 and 79% N2 on a molar basis. Determine the percent of theoretical air required.

Fuel oil which consists of hydrocarbon, CxHy is burnt in a combustion chamber at 25 °C....

Fuel oil which consists of hydrocarbon, CxHy is burnt in a combustion chamber at 25 °C. Standard heat of combustion is -43,515 J/g with CO2 (g) and H2O (l) as products. The temperature of the fuel and air entering the combustion chamber is 25 °C. and the air is assumed dry. The flue gases leave at 300 °C and their average composition is 11.2 % CO2, 0.4 % CO, 6.2 % O2 and 82.2 % N2 based on dry basis....

Ethylene oxides is produced by the catalytic oxidation of ethylene: C2H4 (g)+ (1/2)O2---> C2H4O (g) An...

Ethylene oxides is produced by the catalytic oxidation of ethylene: C2H4 (g)+ (1/2)O2---> C2H4O (g) An undesired competing reaction is the combustion of ethylene to CO2. The feed to a reactor contains 2 mol C2H4/mol O2. The conversion and yield in the reactor are respectively 25% and 0.70 mol C2H4O produced/mol C2H4 consumed. A multiple-unit process separates the reactor outlet stream component: C2H4 and O2 are recycled to the reactor, C2H4O is sold, and CO2 and H2O are discarded. The...

Methane gas (CH4) at 25 °C is burned steadily with dry air, which enters a combustion...

Methane gas (CH4) at 25 °C is burned steadily with dry air, which enters a combustion chamber of a natural gas boiler in a small power plant at 17 °C. The volumetric analysis of the flue gas on a dry basis is 5.2% carbon dioxide, 0.33% carbon monoxide, 11.24% diatomic oxygen, and 83.23% diatomic nitrogen. The flue gas leaves at 700 K. a) Sketch a fully labelled schematic diagram of the system. b) Write a balanced chemical equation for the...

Analyze a Gas turbine engine at a design speed under the following data employing a ...

Analyze a Gas turbine engine at a design speed under the following data employing a  separate power turbine, heat exchanger, reheater and intercooler between two-stage  compression.  Efficiency of compression in each stage: 85%  Isentropic efficiency of compressor turbine: 90%  Isentropic efficiency of power turbine: 85%  Transmission efficiency: 98%  Pressure ratio in each stage of compression: 2:1  Pressure loss in intercooler: 0.07 bar  Temperature after intercooling: 300 K  Thermal ratio of...

Doo not copy The context for the set of questions below is a gas-fired industrial boiler....

Doo not copy The context for the set of questions below is a gas-fired industrial boiler. Continuous emission monitoring requires that the flow of combustion gases be quantitated to allow for estimation of the total mass of each constituent emitted from the stack. Assume that the duct leading from the combustion chamber is exposed to outside air in a vertical run as it leaves the combustion chamber. Velocity of flow is to be measured within the outlet duct of the...

A fuel gas consists of 75% butane (C4H10), 10% propane (C3H8) and 15% butene (C4H8) by...

A fuel gas consists of 75% butane (C4H10), 10% propane (C3H8) and 15% butene (C4H8) by volume. It is to be fed to the combustion chamber in 10% excess air at 25ºC, where it is completely burnt to carbon dioxide and water. The flue gases produced are to be used to generate 5 bar steam from water at 90ºC. (a) Write balanced equations for the combustion of each component of the fuel gas. (b) Explain the need for excess air....

Methane is burned with 25% excess air in a continuous adiabatic reactor. The methane enters the...

Methane is burned with 25% excess air in a continuous adiabatic reactor. The methane enters the reactor at 25°C and 1.10 atm at a rate of 550 L/s, and the entering air is at 150°C and 1.1 atm. Combustion in the reactor is complete, and the reactor effluent gas emerges at 1.05 atm. (a) Calculate the temperature and the degrees of superheat of the reactor effluent. (Consider water to be the only condensable species in the effluent.) (b) Suppose only...