The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering
The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Decreases

Can either increase or decrease (depends on the type of catalyst)

Increases

Remains unaffected

Decreases

Can either increase or decrease (depends on the type of catalyst)

Increases

Remains unaffected

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Chemical Reaction Engineering
Mean residence time is equal to the space time, when

All of these

The temperature, pressure and the density of reaction mixture remains constant throughout the reactor

There is no change in number of moles in gaseous reaction

The feed rate is measured at temperature and pressure in the reactor

All of these

The temperature, pressure and the density of reaction mixture remains constant throughout the reactor

There is no change in number of moles in gaseous reaction

The feed rate is measured at temperature and pressure in the reactor

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Chemical Reaction Engineering
The catalytic activity of enzymes is due to their capacity to lower the __________ energy.

Potential

Kinetic

Activation

None of these

Potential

Kinetic

Activation

None of these

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Chemical Reaction Engineering
Threshold energy in a reaction is equal to the

Normal energy of reactants

Activation energy

Sum of A & B

Neither A nor B

Normal energy of reactants

Activation energy

Sum of A & B

Neither A nor B

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Chemical Reaction Engineering
For a first order chemical reaction in a porous catalyst, the Thiele modulus is 10. The effectiveness factor is approximately equal to

1

0.5

0.1

1

0.5

0.1

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

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

Ash resistance

Gas film and pore surface diffusion resistances for reactants

Gas film and pore surface diffusion resistances for products

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Chemical Reaction Engineering

Chemical Reaction Engineering The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering Mean residence time is equal to the space time, when

Chemical Reaction Engineering The catalytic activity of enzymes is due to their capacity to lower the __________ energy.

Chemical Reaction Engineering Threshold energy in a reaction is equal to the

Chemical Reaction Engineering For a first order chemical reaction in a porous catalyst, the Thiele modulus is 10. The effectiveness factor is approximately equal to

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

Chemical Reaction Engineering
The equilibrium constant of chemical reaction __________ in the presence of catalyst.

Chemical Reaction Engineering
Mean residence time is equal to the space time, when

Chemical Reaction Engineering
The catalytic activity of enzymes is due to their capacity to lower the __________ energy.

Chemical Reaction Engineering
Threshold energy in a reaction is equal to the

Chemical Reaction Engineering
For a first order chemical reaction in a porous catalyst, the Thiele modulus is 10. The effectiveness factor is approximately equal to

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