The residence time distribution of an ideal CSTR is

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

1/τ exp (-t/τ)

Exp(-t/τ)

1/τ (-t/τ)

Τ exp (-t/τ)

1/τ exp (-t/τ)

Exp(-t/τ)

1/τ (-t/τ)

Τ exp (-t/τ)

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Chemical Reaction Engineering
A pollutant P degrades according to first order kinetics. An aqueous stream containing P at 2 kmole/m³ and volumetric flow rate 1m³ /h requires a mixed flow reactor of volume V to bring down the pollutant level to 0.5 kmole/m³ . The inlet concentration of the pollutant is now doubled and the volumetric flow rate is tripled. If the pollutant level is to be brought down to the same level of 0.5 kmole/m³ , the volume of the mixed flow reactor should be increased by a factor of

3

7

44015

6

3

7

44015

6

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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?

2.24

2.5

1.6

2

2.24

2.5

1.6

2

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Chemical Reaction Engineering
For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Decreases with pressure

Increases with pressure

Is independent of pressure

Increases /decreases with pressure depending on the stoichiometric co-efficients of the reaction

Decreases with pressure

Increases with pressure

Is independent of pressure

Increases /decreases with pressure depending on the stoichiometric co-efficients of the reaction

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Chemical Reaction Engineering
Considering the endotheomic dissociation of CaCO₃ in a closed vessel (CaCO₃ ⇋ CaO + CO₂), the pressure of CO₂ increases, if

An inert gas is pumped keeping the temperature constant

A catalyst is added

None of these

The temperature is increased

An inert gas is pumped keeping the temperature constant

A catalyst is added

None of these

The temperature is increased

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Chemical Reaction Engineering
In a/an __________ vessel, the fluid enters and leaves following plug flow.

Closed

Close-opened

Open

Open-closed

Closed

Close-opened

Open

Open-closed

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Chemical Reaction Engineering

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

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 For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Chemical Reaction Engineering Considering the endotheomic dissociation of CaCO₃ in a closed vessel (CaCO₃ ⇋ CaO + CO₂), the pressure of CO₂ increases, if

Chemical Reaction Engineering In a/an __________ vessel, the fluid enters and leaves following plug flow.

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

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
For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Chemical Reaction Engineering
Considering the endotheomic dissociation of CaCO₃ in a closed vessel (CaCO₃ ⇋ CaO + CO₂), the pressure of CO₂ increases, if

Chemical Reaction Engineering
In a/an __________ vessel, the fluid enters and leaves following plug flow.