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.

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

Decreases

Remains unaffected

Increases

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

Decreases

Remains unaffected

Increases

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Chemical Reaction Engineering
The extent of a reaction is

Depends on the stoichiometric co-efficient

Different for reactants and products

Dimensionless

All of these

Depends on the stoichiometric co-efficient

Different for reactants and products

Dimensionless

All of these

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Chemical Reaction Engineering
The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

3

1

2

3

1

2

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Chemical Reaction Engineering
For high conversion in a highly exothermic solid catalysed reaction, use a __________ bed reactor.

Fixed bed reactor followed by a fluidised

Fluidised

Fixed

Fluidised bed reactor followed by a fixed

Fixed bed reactor followed by a fluidised

Fluidised

Fixed

Fluidised bed reactor followed by a fixed

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Chemical Reaction Engineering
A pollutant P degrades according to first order kinetics. An aqueous stream containing P at 2 kmole/m³ and volumetric flow rate 1m³ /h requires a mixed flow reactor of volume V to bring down the pollutant level to 0.5 kmole/m³ . The inlet concentration of the pollutant is now doubled and the volumetric flow rate is tripled. If the pollutant level is to be brought down to the same level of 0.5 kmole/m³ , the volume of the mixed flow reactor should be increased by a factor of

6

7

44015

3

6

7

44015

3

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

Gas film and pore surface diffusion resistances for products

Surface phenomenon resistance

Gas film and pore surface diffusion resistances for reactants

Ash resistance

Gas film and pore surface diffusion resistances for products

Surface phenomenon resistance

Gas film and pore surface diffusion resistances for reactants

Ash resistance

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Chemical Reaction Engineering

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

Chemical Reaction Engineering The extent of a reaction is

Chemical Reaction Engineering The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

Chemical Reaction Engineering For high conversion in a highly exothermic solid catalysed reaction, use a __________ bed reactor.

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
The extent of a reaction is

Chemical Reaction Engineering
The value of 'n' for a chemical reaction A → B, whose reaction rate is → CAn, will be __________ if the rate of the reaction increases by a factor of 8, when the concentration of is doubled.

Chemical Reaction Engineering
For high conversion in a highly exothermic solid catalysed reaction, use a __________ bed reactor.

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