The residence time distribution of an ideal CSTR is

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

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)

1/τ exp (-t/τ)

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Chemical Reaction Engineering
An endothermic second order reaction is carried out in an adiabatic plug flow reactor. The rate of heat generation is

Constant throughout the reactor

Maximum at the exit of the reactor

Maximum at the centre of the reactor

Maximum at the inlet of the reactor

Constant throughout the reactor

Maximum at the exit of the reactor

Maximum at the centre of the reactor

Maximum at the inlet of the reactor

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Chemical Reaction Engineering
According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

None of these

K ∝ √T

K ∝ e-E/RT

K ∝ T e-E/RT

None of these

K ∝ √T

K ∝ e-E/RT

K ∝ T e-E/RT

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Chemical Reaction Engineering
Enzymes are destroyed, when the

Temperature is very high

Reaction rate is independent of the reactant's concentration

Reactant's concentration is very low

Reactant's concentration is very high

Temperature is very high

Reaction rate is independent of the reactant's concentration

Reactant's concentration is very low

Reactant's concentration is very high

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Chemical Reaction Engineering
A rise in temperature

Does not affect photo-chemical reaction rates

All of these

Normally tends to increase the reaction rate

Does not affect a catalysed reaction

Does not affect photo-chemical reaction rates

All of these

Normally tends to increase the reaction rate

Does not affect a catalysed reaction

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Chemical Reaction Engineering
A backmix reactor

Is same as ideal stirred tank reactor

Employs mixing in axial direction only

Is most suitable for gas phase reaction

Is same as plug-flow reactor

Is same as ideal stirred tank reactor

Employs mixing in axial direction only

Is most suitable for gas phase reaction

Is same as plug-flow reactor

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Chemical Reaction Engineering

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

Chemical Reaction Engineering An endothermic second order reaction is carried out in an adiabatic plug flow reactor. The rate of heat generation is

Chemical Reaction Engineering According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

Chemical Reaction Engineering Enzymes are destroyed, when the

Chemical Reaction Engineering A rise in temperature

Chemical Reaction Engineering A backmix reactor

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

Chemical Reaction Engineering
An endothermic second order reaction is carried out in an adiabatic plug flow reactor. The rate of heat generation is

Chemical Reaction Engineering
According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

Chemical Reaction Engineering
Enzymes are destroyed, when the

Chemical Reaction Engineering
A rise in temperature

Chemical Reaction Engineering
A backmix reactor