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Suppose a reactant A undergoes liquid-phase reactions according to the following kinetics scheme: Does a favorable product distribution result from relatively high or relatively low C_A? Explain. Does a favorable product distribution result from relatively high or relatively low T? Explain. Does a favorable (i.e., small) reactor size result from high or low C_A? Explain. Does a favorable reactor size result from high or low T? Explain. Which type of reactor, PFR or single-staged CSTR, should be chosen for this situation, and should it be operated at high, low, or optimal T to achieve favorable product distribution consistent with small size of reactor? Explain. For the kinetics scheme in (a), and regardless of the proper choice of reactor, suppose a CSTR of volume 10 m3 is available to process 0.5 m^3/min of a feed stream with a concentration (C_Ao) of 3000 mol/m^3. If the temperature is such that k_1 = 0.001 (1/sec), and k_2 = 5*10^-5 m^3/mol/sec, calculate the fractional conversion of A and the product distribution (C_A, C_B, C_c) in the exit stream at steady state.
Suppose a reactant A undergoes liquid-phase reactions according to the following kinetics scheme: Does a favorable product distribution result from relatively high or relatively low C_A? Explain. Does a favorable product distribution result from relatively high or relatively low T? Explain. Does a favorable (i.e., small) reactor size result from high or low C_A? Explain. Does a favorable reactor size result from high or low T? Explain. Which type of reactor, PFR or single-staged CSTR, should be chosen for this situation, and should it be operated at high, low, or optimal T to achieve favorable product distribution consistent with small size of reactor? Explain. For the kinetics scheme in (a), and regardless of the proper choice of reactor, suppose a CSTR of volume 10 m3 is available to process 0.5 m^3/min of a feed stream with a concentration (C_Ao) of 3000 mol/m^3. If the temperature is such that k_1 = 0.001 (1/sec), and k_2 = 5*10^-5 m^3/mol/sec, calculate the fractional conversion of A and the product distribution (C_A, C_B, C_c) in the exit stream at steady state.
davejakeLv2
1 Jun 2022
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