Determine an appropriate rate expression for the gas-phase reaction A2B utilizing the following data from a constant-volume batch reactor: Time, h 01235 PT, atm 1.31 1.54 1.70 1.81 1.96 8 2.09 The reaction mixture consists of 76.94% A with 23.06% inerts at 1 atm and 57.2°F. The reaction is initiated by dropping the reactor into a constant-temperature bath at 212°F. Equilibrium calculations have shown the reaction to be essentially irreversible in this temperature range.
Determine an appropriate rate expression for the gas-phase reaction A2B utilizing the following data from a constant-volume batch reactor: Time, h 01235 PT, atm 1.31 1.54 1.70 1.81 1.96 8 2.09 The reaction mixture consists of 76.94% A with 23.06% inerts at 1 atm and 57.2°F. The reaction is initiated by dropping the reactor into a constant-temperature bath at 212°F. Equilibrium calculations have shown the reaction to be essentially irreversible in this temperature range.
Chemistry
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Chapter1: Chemical Foundations
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Transcribed Image Text:Determine an appropriate rate expression for the gas-phase reaction A2B utilizing
the following data from a constant-volume batch reactor:
Time, h
01235
PT, atm 1.31 1.54 1.70 1.81 1.96
8
2.09
The reaction mixture consists of 76.94% A with 23.06% inerts at 1 atm and 57.2°F.
The reaction is initiated by dropping the reactor into a constant-temperature bath at
212°F. Equilibrium calculations have shown the reaction to be essentially irreversible
in this temperature range.
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