The residence time distribution of an ideal CSTR is

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

Τ exp (-t/τ)

1/τ (-t/τ)

1/τ exp (-t/τ)

Exp(-t/τ)

Τ exp (-t/τ)

1/τ (-t/τ)

1/τ exp (-t/τ)

Exp(-t/τ)

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Chemical Reaction Engineering
Backmixing is most predominant in

CSTR's connected in series

A plug-flow reactor

A single CSTR

A well stirred batch reactor

CSTR's connected in series

A plug-flow reactor

A single CSTR

A well stirred batch reactor

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Chemical Reaction Engineering
Which of the following resistances is not involved in a gas phase catalytic (gas- solid) reaction?

Ash resistance

Gas film and pore surface diffusion resistances for reactants

Gas film and pore surface diffusion resistances for products

Surface phenomenon resistance

Ash resistance

Gas film and pore surface diffusion resistances for reactants

Gas film and pore surface diffusion resistances for products

Surface phenomenon resistance

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Chemical Reaction Engineering
For a tubular reactor with space time 'τ' and residence time 'θ', the following statement holds good.

τ = θ , when the fluid density changes in the reactor

τ and θ are always equal

τ = θ , for an isothermic tubular reactor in which the density of the process fluid is constant

τ = θ , for a non-isothermal reactor

τ = θ , when the fluid density changes in the reactor

τ and θ are always equal

τ = θ , for an isothermic tubular reactor in which the density of the process fluid is constant

τ = θ , for a non-isothermal reactor

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Chemical Reaction Engineering
Most important characteristics of gas-liquid reactors are the

None of these

Specific inter-facial area

Liquid hold-up

Both A and B

None of these

Specific inter-facial area

Liquid hold-up

Both A and B

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Chemical Reaction Engineering
In a reversible chemical reaction having two reactants in equilibrium, if the concentration of the reactants are doubled, then the equilibrium constant will

Also be doubled

Remain the same

Be halved

Become one fourth

Also be doubled

Remain the same

Be halved

Become one fourth

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Chemical Reaction Engineering

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

Chemical Reaction Engineering Backmixing is most predominant in

Chemical Reaction Engineering Which of the following resistances is not involved in a gas phase catalytic (gas- solid) reaction?

Chemical Reaction Engineering For a tubular reactor with space time 'τ' and residence time 'θ', the following statement holds good.

Chemical Reaction Engineering Most important characteristics of gas-liquid reactors are the

Chemical Reaction Engineering In a reversible chemical reaction having two reactants in equilibrium, if the concentration of the reactants are doubled, then the equilibrium constant will

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

Chemical Reaction Engineering
Backmixing is most predominant in

Chemical Reaction Engineering
Which of the following resistances is not involved in a gas phase catalytic (gas- solid) reaction?

Chemical Reaction Engineering
For a tubular reactor with space time 'τ' and residence time 'θ', the following statement holds good.

Chemical Reaction Engineering
Most important characteristics of gas-liquid reactors are the

Chemical Reaction Engineering
In a reversible chemical reaction having two reactants in equilibrium, if the concentration of the reactants are doubled, then the equilibrium constant will