A liquid fuel containing Co and H2, was burned using excess air. Its Orsat analysis of...
A liquid fuel containing Co and H2, was burned using excess air. Its Orsat analysis of the combustion gas is 5.34% CO2, 13.23% O2 and 81.43% N2. The molal humidity of the product is 0.179 mol water vapor/mol of dry gas. Calculate percent composition by weight of the liquid fuel.
A liquid fuel containing C, H and O, was burned completely using excess air. The Orsat analysis of the combustion gas shows 4.48% CO2, 11.21% O2 and 84.31% N2, And the molal humidity of the product gas is 0.179 mol water vapor per mol of dry gas. Calculate % composition by weight of the liquid fuel.
A liquid fuel containing C, H and O, was burned completely using excess air. The Orsat analysis of the combustion gas shows 4.48% CO2, 11.21% O2 and 84.31% N2, And the molal humidity of the product gas is 0.179 mol water vapor per mol of dry gas. Calculate % composition by weight of the liquid fuel.
A liquid fuel containing C, H and O, was burned completely using excess air. The Orsat analysis of the combustion gas shows 4.48% CO2, 11.21% O2 and 84.31% N2, And the molal humidity of the product gas is 0.179 mol water vapor per mol of dry gas. Calculate % composition by weight of the liquid fuel.
A fuel is burned with bone dry air in a furnace. The stack gas is at 116 kPa and has a dew point of 47 °C. The Orsat Analysis of the gas shows 10 mol% CO2 and the balance being O2 and N2. Calculate the ratio of H/C in the fuel.
From a combustion process that used ethane (C2He) as a fuel, the ORSAT analysis of the stack gases on a nitrogen free basis is as follows: Component CO2 CO O2 Xi (molar basis) 0.289 0.191 0.520 Determine: 1.1. Percentage of the fuel that produced CO 1.2. Percentage of the fuel that produced CO 1.3. Selectivity of CO: with respect to CO 1.4. Theoretical Oxygen. 1.5. Percentage Excess Air 1.6. Amount of Nitrogen produced 1.7. Composition of flue gas (molar) on...
Problem 4 A fuel gas has a composition by volume of: 50% H2 , 6% CO2, 4% N2 , 40% CO. The dry exhaust gas analysis (% by volume) of the actual combustion process indicates 9.2% CO2, 0% CO, some O2. Recall that for gases, volumetric composition is the same as molar composition. (a) What air/gas ratio (by volume) is required for stoichiometric combustion? (m? air/ m² fuel gas) (b) What air/gas ratio (by volume) has actually been used? (m’...
n-Pentane is burned with excess air in a continuous combustion chamber. Below is a skeleton flowchart. n (mol n-pentane) Combustion Chamber 100 mol Dry Product Gas (DPG) Xp (mol n-pentane / mol DPG) Xaq (mol O2/mol DPG) Xco, (mol CO2/mol DPG) XNC (mol N2 mol DPG) n (mol H2O) Excess Air n2 (mol O2) na (mol N) Air Composition Correct. 169.25 If n2 were 45.0 moles, what would be the value of n4? mol the tolerance is +/-2% Your answer...
Question Completion Status: QUESTION 1 10 points A hydrocarbon gas is burned with air. The dry-basis (without H20) product gas composition is 1.5 mole% CO, 6 mole% CO2, 8.2 mole% O2, and 84.3 mole% N2. ne(mol C) (mol no (malain (100 mol dry gas 0.21 mol Oymol 0.015 mol COmol dry gas 0.79 mol Ny/mol 0.060 mol CO2 mol dry gas 0.082 mol Oz moi dry g 0.843 mol Nymol dry gas "wmol H20) 1. Using the method of atomic...
H.W.6.17. A boiler is supplied with coal gas of the following composition: 53.6% H2, 9% CO, 25% CH4, 3% C4H8, 0.4% O2, 3% CO2, 6% N2. If the air fuel ratio is 6.5/1 by volume, calculate the analysis of the dry products of combustion by volume.