A+2B --> C -ra=kCaCb^2 Where k-0.01 s1(gmoLt 500c) CA-concentration of A. gmolL CB-concentration of B, gmol/L....

A liquid phase reaction A+B --> C+D is to be carried out in an isothermal and...

A liquid phase reaction A+B --> C+D is to be carried out in an isothermal and well mixed batch reactor. The initial moles of A and B are both 0.1 mole.  The rate of destruction of A is given by –rA = k*CA*CB, with k =  6.0 L/ (mol*min).  Calculate the amount of time (in minutes) that the reaction must proceed within a 10 L reactor in order to achieve a final concentration of A of 0.001 mol/L. Please express your answer to...

The irreversible gas-phase non-elementary reaction A + 2B ---> C takes place in an isothermal (227...

The irreversible gas-phase non-elementary reaction A + 2B ---> C takes place in an isothermal (227 C) constant-volume batch reactor. The initial feed to the reactor consists of 40 mol% A and 60 mol% B at a total pressure of 10 atm. Measurements of the rate of reaction as a function of conversion yielded the following results: -rA (mol dm^-3 s^-1) x (1x10^8) 0.010 0.005 0.002 0.001 XA   0.0 0.2 0.4 0.6 Calculate the time required to achieve a conversion...

The follow second order, irreversible gas phase reaction AB --> A + B, where k=2.0X10^4 cm^3/mol.min...

The follow second order, irreversible gas phase reaction AB --> A + B, where k=2.0X10^4 cm^3/mol.min is allowed to decompose isothermally in a constant pressure batch reactor. The reactor initially contains pure AB with a volume of 2.0 m^3 at 2.5 atm and 500 C. Assume ideal behavior, determine the time for the reaction to reach 70% conversion (Given R = 82.05 atm cm^3/mol.K) Answer= 4.39 min.

Consider a plug flow reactor with a reversible isothermal gas-phase reaction: A + B <--> C...

Consider a plug flow reactor with a reversible isothermal gas-phase reaction: A + B <--> C The reactor feed consists of a mixture of 50% A and 50% B. The reaction rate is: (-rA) = k1*CA*CB - k2*CC2 The inlet temperature is 500 K and the total pressure is 200 kPa. The volumetric feed flow rate is 10 m3/s. The rate constants have a values of: k1 = 0.1 m3/(mol*s) and k2 = 0,05 m3/(mol*s). a) Calculate the conversion of...