The following reactions are taking place in the membrane
reactor.
A> 3B + C, B is getting smaller through the membrane. The speed
at which B escapes is RB = KcCB.
1. Determine the rA, rB, rC rate equations as concentration (CA)
and molar flow rates (FA, FB, C) with the reaction rate constant
K.
2. Indicate the dFA / dV, dFB / dV, and dFC / dV formulas in the
membrane reactor.
The following reactions are taking place in the membrane reactor. A> 3B + C, B is...
The following reactions are taking place in the membrane reactor. A> 3B + C, B is getting smaller through the membrane. The speed at which B escapes is RB = KcCB. 1. Determine the rA, rB, rC rate equations as concentration (CA) and molar flow rates (FA, FB, C) with the reaction rate constant K. 2. Indicate the dFA / dV, dFB / dV, and dFC / dV formulas in the membrane reactor.
we
can find the type of the reactor at problem no.(c).
3. (40 pts.) Consider the following parallel reactions that we have encountered in producing the desired product B at 300 K FF rB kiCA 0.0015 CA (1) A B (2) A C rc k 0.0001 (3) A D : rD kCA 0.008 CA The reactions are in liquid-phase. The activation energies of the reaction (1), (2), and (3) are 5x 104 kJ/mol, 4x10 kJ/mol, and 8x10 kJ/mol, respectively. We...
P8-3B The following reactions D ku[CA-CD 1A. 1A. ka [CA-C, T/K take place in a batch reactor. Additional information: k1 31.0 min-1, K1A 10 k2 100 2A CAO- 1 mol/dm3 (Adapted from a problem by John Falconer, University of Colorado.) (a) Plot and analyze conversion and the concentrations of A, D, and U as a function of time. When would you stop the reaction to maximize the concentration of D? Describe what you find. (b) When does the maximum concentration...