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19 Nov 2019
Chemical engineering question
A gas phase reaction (k_1 = 2 m^3/mol/sec at 300 K; E_A/R = 150 K) is carried out in a PFR in which the diameter changes with distance (as shown in Figure). Also a heating system is installed around the PFR such that the temperature changes along the PFR following the equation: T = 300 + 10 x^2, where x is the distance from the entry (left). If the entry flow rate of the reactant is F_AO = 1 mol/s and the entry concentration is C_AO = 0.5 mol/m^3, plot the conversion as a function of length of the reactor. (Assume isobaric conditions) A rightarrow B + C; -r_A = K_1 C_A^2 D_1 = 0.1 m D_2 = 0.4 m L = 1 m Use Polymath. What would the plot look like for a liquid phase reaction with under same conditions? Use Polymath.
Chemical engineering question
A gas phase reaction (k_1 = 2 m^3/mol/sec at 300 K; E_A/R = 150 K) is carried out in a PFR in which the diameter changes with distance (as shown in Figure). Also a heating system is installed around the PFR such that the temperature changes along the PFR following the equation: T = 300 + 10 x^2, where x is the distance from the entry (left). If the entry flow rate of the reactant is F_AO = 1 mol/s and the entry concentration is C_AO = 0.5 mol/m^3, plot the conversion as a function of length of the reactor. (Assume isobaric conditions) A rightarrow B + C; -r_A = K_1 C_A^2 D_1 = 0.1 m D_2 = 0.4 m L = 1 m Use Polymath. What would the plot look like for a liquid phase reaction with under same conditions? Use Polymath.