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 exp (-t/τ)

1/τ (-t/τ)

Exp(-t/τ)

Τ exp (-t/τ)

1/τ exp (-t/τ)

1/τ (-t/τ)

Exp(-t/τ)

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Chemical Reaction Engineering
The half life period of a first order reaction is

Always the same irrespective of the reaction

Dependent on initial concentration of the reactants

Half the specific rate constant

Proportional to the initial concentration of reactants

Always the same irrespective of the reaction

Dependent on initial concentration of the reactants

Half the specific rate constant

Proportional to the initial concentration of reactants

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Chemical Reaction Engineering
The excess energy of reactants in a chemical reaction required to dissociate into products is termed as the __________ energy.

Threshold

Potential

Binding

Activation

Threshold

Potential

Binding

Activation

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Chemical Reaction Engineering
For the liquid phase parallel reactions:R, rR = K?.CA2; E? = 80 KJ/moleS, rS = K?.CA ; E? = 120 KJ/mole The desired product is R. A higher selectivity of R will be achieved, if the reaction is conducted at

High temperature in a CSTR

Low temperature in a PFR

Low temperature in a CSTR

High temperature in a PFR

High temperature in a CSTR

Low temperature in a PFR

Low temperature in a CSTR

High temperature in a PFR

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Chemical Reaction Engineering
Signal normally used to study non-ideal flow by stimulus response technique is __________ input.

Step

Neither A nor B

Pulse

Both A & B

Step

Neither A nor B

Pulse

Both A & B

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Chemical Reaction Engineering
In a first order reaction, the time required to reduce the concentration of reactant from 1 mole/litre to 0.5 mole/litre will be __________ that required to reduce it from 10 moles/litre to 5 moles/litre in the same volume.

Same as

Data insufficient; can't be predicted

More than

Less than

Same as

Data insufficient; can't be predicted

More than

Less than

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Chemical Reaction Engineering

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

Chemical Reaction Engineering The half life period of a first order reaction is

Chemical Reaction Engineering The excess energy of reactants in a chemical reaction required to dissociate into products is termed as the __________ energy.

Chemical Reaction Engineering For the liquid phase parallel reactions:R, rR = K?.CA2; E? = 80 KJ/moleS, rS = K?.CA ; E? = 120 KJ/mole The desired product is R. A higher selectivity of R will be achieved, if the reaction is conducted at

Chemical Reaction Engineering Signal normally used to study non-ideal flow by stimulus response technique is __________ input.

Chemical Reaction Engineering In a first order reaction, the time required to reduce the concentration of reactant from 1 mole/litre to 0.5 mole/litre will be __________ that required to reduce it from 10 moles/litre to 5 moles/litre in the same volume.

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

Chemical Reaction Engineering
The half life period of a first order reaction is

Chemical Reaction Engineering
The excess energy of reactants in a chemical reaction required to dissociate into products is termed as the __________ energy.

Chemical Reaction Engineering
For the liquid phase parallel reactions:R, rR = K?.CA2; E? = 80 KJ/moleS, rS = K?.CA ; E? = 120 KJ/mole The desired product is R. A higher selectivity of R will be achieved, if the reaction is conducted at

Chemical Reaction Engineering
Signal normally used to study non-ideal flow by stimulus response technique is __________ input.

Chemical Reaction Engineering
In a first order reaction, the time required to reduce the concentration of reactant from 1 mole/litre to 0.5 mole/litre will be __________ that required to reduce it from 10 moles/litre to 5 moles/litre in the same volume.