The residence time distribution of an ideal CSTR is

Chemical Reaction Engineering
The residence time distribution of an ideal CSTR is

1/τ (-t/τ)

Exp(-t/τ)

1/τ exp (-t/τ)

Τ exp (-t/τ)

1/τ (-t/τ)

Exp(-t/τ)

1/τ exp (-t/τ)

Τ exp (-t/τ)

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Chemical Reaction Engineering
In an ideal tubular-flow reactor

There is no mixing in longitudinal direction

All of these

Mixing takes place in radial direction

There is a uniform velocity across the radius

There is no mixing in longitudinal direction

All of these

Mixing takes place in radial direction

There is a uniform velocity across the radius

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Chemical Reaction Engineering
Reverse reaction in a chemical equilibrium is favoured by the

Increase in the concentration of oneof the products

Removal of one of the products regularly

Increase in the concentration of one of the reactants

None of these

Increase in the concentration of oneof the products

Removal of one of the products regularly

Increase in the concentration of one of the reactants

None of these

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Chemical Reaction Engineering
Mean residence time is equal to the space time, when

The temperature, pressure and the density of reaction mixture remains constant throughout the reactor

All of these

The feed rate is measured at temperature and pressure in the reactor

There is no change in number of moles in gaseous reaction

The temperature, pressure and the density of reaction mixture remains constant throughout the reactor

All of these

The feed rate is measured at temperature and pressure in the reactor

There is no change in number of moles in gaseous reaction

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Chemical Reaction Engineering
The conversion XA and residence time data are collected for zero order liquid phase reaction in a stirred tank reactor. Which of the following will be a straight line?

XA(1 - XA)Vs τ

XA Vs ln τ

XA/(1 - XA)Vs τ

XA Vs . τ

XA(1 - XA)Vs τ

XA Vs ln τ

XA/(1 - XA)Vs τ

XA Vs . τ

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Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

1.6

2

2.24

2.5

1.6

2

2.24

2.5

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Chemical Reaction Engineering

Chemical Reaction Engineering The residence time distribution of an ideal CSTR is

Chemical Reaction Engineering In an ideal tubular-flow reactor

Chemical Reaction Engineering Reverse reaction in a chemical equilibrium is favoured by the

Chemical Reaction Engineering Mean residence time is equal to the space time, when

Chemical Reaction Engineering The conversion XA and residence time data are collected for zero order liquid phase reaction in a stirred tank reactor. Which of the following will be a straight line?

Chemical Reaction Engineering At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

Chemical Reaction Engineering
The residence time distribution of an ideal CSTR is

Chemical Reaction Engineering
In an ideal tubular-flow reactor

Chemical Reaction Engineering
Reverse reaction in a chemical equilibrium is favoured by the

Chemical Reaction Engineering
Mean residence time is equal to the space time, when

Chemical Reaction Engineering
The conversion XA and residence time data are collected for zero order liquid phase reaction in a stirred tank reactor. Which of the following will be a straight line?

Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?