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)

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)

Exp(-t/τ)

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Chemical Reaction Engineering
Half life period of decomposition of a liquid 'A' by irreversible first order reaction is 12 minutes. The time required for 75% conversion of 'A' is __________ minutes.

24

18

6

12

24

18

6

12

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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

A catalyst is added

The temperature is increased

An inert gas is pumped keeping the temperature constant

None of these

A catalyst is added

The temperature is increased

An inert gas is pumped keeping the temperature constant

None of these

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Chemical Reaction Engineering
A space time of 3 hours for a flow reactor means that

Three reactor volumes of feed can be processed every hour

The time required to process one reactor volume of feed (measured at specified conditions) is 3 hours

It takes three hours to dump the entire volume of the reactor with feed

Conversion is cent per cent after three hours

Three reactor volumes of feed can be processed every hour

The time required to process one reactor volume of feed (measured at specified conditions) is 3 hours

It takes three hours to dump the entire volume of the reactor with feed

Conversion is cent per cent after three hours

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Chemical Reaction Engineering
The rate at which a chemical substance reacts is proportional to its

Molecular weight

Active mass

None of these

Equivalent weight

Molecular weight

Active mass

None of these

Equivalent weight

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Chemical Reaction Engineering
For reaction, P + 2 → 3R, molar rate of consumption of P is

Double of that of Q

Half of that of Q

Same as that of Q

2/3rd of that of Q

Double of that of Q

Half of that of Q

Same as that of Q

2/3rd of that of Q

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Chemical Reaction Engineering

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

Chemical Reaction Engineering Half life period of decomposition of a liquid 'A' by irreversible first order reaction is 12 minutes. The time required for 75% conversion of 'A' is __________ minutes.

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 A space time of 3 hours for a flow reactor means that

Chemical Reaction Engineering The rate at which a chemical substance reacts is proportional to its

Chemical Reaction Engineering For reaction, P + 2 → 3R, molar rate of consumption of P is

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

Chemical Reaction Engineering
Half life period of decomposition of a liquid 'A' by irreversible first order reaction is 12 minutes. The time required for 75% conversion of 'A' is __________ minutes.

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
A space time of 3 hours for a flow reactor means that

Chemical Reaction Engineering
The rate at which a chemical substance reacts is proportional to its

Chemical Reaction Engineering
For reaction, P + 2 → 3R, molar rate of consumption of P is