Question: Redo Problem 14.1 using Aspen Plus. Problem 14.1 The flame temperature attained in a torch or a burner can be computed using the adiabatic reaction

Redo Problem 14.1 using Aspen Plus.

Problem 14.1

The flame temperature attained in a torch or a burner can be computed using the adiabatic reaction temperature analysis of Sec. 14.3 if it is assumed that the radiant heat loss from the flame is negligible. Compute the flame temperature and exit composition in a hydrogen torch if

a. A stoichiometric amount of pure oxygen is used as the oxidant.

b. Oxygen is the oxidant, but a 100 percent excess is used.

c. Twice the stoichiometric amount of air is used as the oxidant.

In each case the hydrogen and oxidant entering the torch are at room temperature (298.15 K), and the torch pressure is 1.013 bar.

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a A stoichiometric amount of pure oxygen is used as the oxidant The reaction for the combustion of hydrogen with oxygen is 2H2 O2 2H2O The stoichiometric coefficients are 212 which means that 2 moles ... View full answer

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