1 TAME synthesis problem Tert-Amyl Methyl Ether (TAME) is an ...

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Some results For both cases, isothermal and non-isothermal, the feed concentrations were the same: C C C C IN 2M 1B IN 2M 2B IN MeOH IN TAME = = = = 0 3. 33 3. 33 6. 66 mol / L mol / L mol / L These concentrations lead to a feed mole ratio MeOH/isoamylenes, RM/IA, of 1.0. a) Figures R.1, R.2 and R.3 represent the concentration profiles for a 10 m 3 isothermal PFR, operating at 323 K, 343 K and 363 K, and a flow of 40 L/min. C (mol/L) 7 6 5 4 3 2 1 0 Isothermal: T = 323 K RM/IA = 1, Q = 40 L/min 0 0.2 0.4 0.6 0.8 1 X 2M1B 2M2B MeOH TAME Fig. R.1: Concentration profiles for a 10 m 3 isothermal PFR operating at 323 K. 12
C (mol/L) Fig. R.2: Concentration profiles for a 10 m 3 isothermal PFR operating at 343 K. C (mol/L) 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Isothermal: T = 343 K RM/IA = 1, Q = 40 L/min 0 0.2 0.4 0.6 0.8 1 X 2M1B 2M2B MeOH TAME Isothermal: T = 363 K RM/IA = 1, Q = 40 L/min 0 0.2 0.4 0.6 0.8 1 X 2M1B 2M2B MeOH TAME Fig. R.3: Concentration profiles for a 10 m 3 isothermal PFR operating at 363 K As the temperature increases, the reactions are faster, favoring TAME production, but the chemical equilibrium is moved to the opposite direction: for an operating temperature of 363 K, the equilibrium concentration of TAME is reached faster than for 343 K, but its value is lower. 13
Page 1 and 2: TAME synthesis problem Tert-Amyl Me
Page 3 and 4: 1B r 2B • Heat of reaction (Vilar
Page 5 and 6: • Density of each component (Perr
Page 7 and 8: dCi ϕ i = ui Ci − Dax (A.5) dz w
Page 9 and 10: − b ∑ j= 1 R 2 ( ∆H r ) + U (
Page 11: Read data from file T0, Tw IN C i Q
Page 15 and 16: (a) (b) C (mol/L) T (K) 7 6 5 4 3 2
Page 17 and 18: with a diameter of 1’’ each. To

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