Q.Drive the performance equation of batch with varying volume for first order and second order irreversible...

50%conversion is obtained in a CSTR for a homogenous, isothermal, liquid phase, irreversible second order reaction....

50%conversion is obtained in a CSTR for a homogenous, isothermal, liquid phase, irreversible second order reaction. What is the conversion if the reactor volume is five times the original, all else remaining unchanged?

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.

An isothermal CSTR with a first order irreversible reaction A —> B and rA = 0.14...

An isothermal CSTR with a first order irreversible reaction A —> B and rA = 0.14 mol/(ft3*min) has a constant flow rate of 11 f3/min. The reactor volume is 100 ft3. The inlet concentration CAi changes from 6 to 5.5 moles/ft3 (a step change). (a) Determine the process time constant. (b) Determine the steady state gain.

A second order gas reaction A+B→2R+S proceeds in a constant pressure batch reactor where its volume...

A second order gas reaction A+B→2R+S proceeds in a constant pressure batch reactor where its volume increases 25% in 6 minutes. The feed contains 50% inerts and reactants are feed at stochiometric ratio. If the same reaction takes place in a constant volume bomb with 3 atm initial pressure at room temperature, calculate the total pressure after 115 minutes. Take gas constant as 0,082 L.atm/mol.K.

Q1. The reaction A + B-> C was studied in a constant volume batch reactor. The...

Q1. The reaction A + B-> C was studied in a constant volume batch reactor. The reaction is believed to be first order in each reactant and second order overall. Following data were reported for the experiment at 20oC. The initial concentration of B was 0.123 Kmol/m3 CA( Kmol/m3)0.062 0.106 0.099 0.087 0.076 0.062 0.05 t(sec) 0 150 480 870 1500 2280 Are these data consistent with the proposed rate expression? If so, determine the reaction rate constant.

How do you determine whether a reaction is first order or second order?

How do you determine whether a reaction is first order or second order?

How can I convert a second orde ODE into a first-order coupled equation in terms of...

How can I convert a second orde ODE into a first-order coupled equation in terms of the variables of X and P for a simple harmonic oscillator using the Hamiltonian Equation?

The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they...

The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line,y=mx+b. 1.) The reactant concentration in a zero-order reaction was 6.00×10−2M after 165 s and 3.50×10−2Mafter 385 s . What is the rate constant for this reaction? 2.)What was the initial reactant concentration for the reaction described in Part A? 3.)The reactant concentration in a first-order reaction was 6.70×10−2 M after 40.0 s and 2.50×10−3Mafter 95.0 s ....

The radioisotope studies today decays following either zero order or first order, or second order kinetics....

The radioisotope studies today decays following either zero order or first order, or second order kinetics. The graphs produced by the integrated rate law plot different variables on the x and y axis depending on the order of the reaction. Look up in your textbook for the straight line plots of these three types of rate laws. Draw the plots in your notebook and label it. Give an equation that can be use to determine the half life of the...

The irreversible gas-phase reaction A + B ----> C is carried out in an isothermal (400...

The irreversible gas-phase reaction A + B ----> C is carried out in an isothermal (400 C) constant-pressure (1 atm) batch reactor in the presence of inerts (I). The initial gas composition in mole fractions is given by yA0 = 0.40; yB0 = 0.40; yC0 = 0.10; yI = 0.10. The reaction is first-order both in A and in B with a rate constant, k = 3.46 x10-2 dm3mol-1 s-1 at 400 C. (a) Set up a stoichiometric table. (b)...