Part B The reaction will proceed toward 1-butene to reach equilibrium. Determine the partial pressures of 1-butene and isobutene. 1-butene isobutene O P1-butene = 3.6 bar, Pisobuutene = 2.6 bar O P1-butene = 2.7 bar, Pisobutene = 2.0 bar The equilibria were studied in the gas phase at high temperatures (Petroleum Chemistry, 2001, 41, 144-148). The equilibrium constant for the isomerization of 1- butene to isobutene at 644 °C is K = 0.73. O P1-butene = 2.5 bar, Pisobutene = 3.4 bar O P1-butene = 3.4 bar, Pisobutene = 2.5 bar A mixture of 1-butene (P = 1.94 bar) and isobutene (P = 2.75 bar) were placed in a vessel at 644 °C and were allowed to come to equilibrium. Submit Request Answer

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Part B
The reaction will proceed toward 1-butene to reach equilibrium. Determine the partial pressures of 1-butene and isobutene.
1-butene
isobutene
P1-butene
= 3.6 bar, Pisobutene = 2.6 bar
O Pi-butene = 2.7 bar, Pisobutene = 2.0 bar
The equilibria were studied in the gas phase at high
temperatures (Petroleum Chemistry, 2001, 41, 144-148).
The equilibrium constant for the isomerization of 1-
butene to isobutene at 644 °C is K = 0.73.
P1-butene = 2.5 bar, Pisobutene = 3.4 bar
O P1-butene = 3.4 bar, Pisobutene = 2.5 bar
A mixture of 1-butene (P = 1.94 bar) and isobutene (P =
2.75 bar) were placed in a vessel at 644 °C and were
allowed to come to equilibrium.
Submit
Request Answer
Transcribed Image Text:Part B The reaction will proceed toward 1-butene to reach equilibrium. Determine the partial pressures of 1-butene and isobutene. 1-butene isobutene P1-butene = 3.6 bar, Pisobutene = 2.6 bar O Pi-butene = 2.7 bar, Pisobutene = 2.0 bar The equilibria were studied in the gas phase at high temperatures (Petroleum Chemistry, 2001, 41, 144-148). The equilibrium constant for the isomerization of 1- butene to isobutene at 644 °C is K = 0.73. P1-butene = 2.5 bar, Pisobutene = 3.4 bar O P1-butene = 3.4 bar, Pisobutene = 2.5 bar A mixture of 1-butene (P = 1.94 bar) and isobutene (P = 2.75 bar) were placed in a vessel at 644 °C and were allowed to come to equilibrium. Submit Request Answer
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