A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering
A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

∝ CA

∝ 1/CA

Independent of temperature

None of these

∝ CA

∝ 1/CA

Independent of temperature

None of these

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Chemical Reaction Engineering
The gas phase reaction 2A ⇋ B is carried out in an isothermal plug flow reactor. The feed consists of 80 mole % A and 20 mole % inerts. If the conversion of A at the reactor exit is 50%, then CA/CA0 at the outlet of the reactor is

43833

43959

43898

43864

43833

43959

43898

43864

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Chemical Reaction Engineering
Integral method for analysing the kinetic data is used

When the data are scattered

None of these

For testing specific mechanisms with simple rate expressions

Both A and B

When the data are scattered

None of these

For testing specific mechanisms with simple rate expressions

Both A and B

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Chemical Reaction Engineering
Overall rate of reaction in a heterogenous catalytic reaction depends upon the mass and energy transfer from the fluid to solid surface and its rate of reaction is usually __________ the concentration of catalyst, if it does not entail a chain mechanism.

Proportional to

Independent of

Proportional to the square of

Inversely proportional to

Proportional to

Independent of

Proportional to the square of

Inversely proportional to

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Chemical Reaction Engineering
When the reaction is dominated by in-traparticle diffusion, the apparent order of reaction (nD) as measured is related to the true order (n) as

ND = n + 1

None of these

ND = n/2

ND = (n + 1)/2

ND = n + 1

None of these

ND = n/2

ND = (n + 1)/2

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Chemical Reaction Engineering
In an ideal tubular-flow reactor

All of these

There is a uniform velocity across the radius

Mixing takes place in radial direction

There is no mixing in longitudinal direction

All of these

There is a uniform velocity across the radius

Mixing takes place in radial direction

There is no mixing in longitudinal direction

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Chemical Reaction Engineering

Chemical Reaction Engineering A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering The gas phase reaction 2A ⇋ B is carried out in an isothermal plug flow reactor. The feed consists of 80 mole % A and 20 mole % inerts. If the conversion of A at the reactor exit is 50%, then CA/CA0 at the outlet of the reactor is

Chemical Reaction Engineering Integral method for analysing the kinetic data is used

Chemical Reaction Engineering Overall rate of reaction in a heterogenous catalytic reaction depends upon the mass and energy transfer from the fluid to solid surface and its rate of reaction is usually __________ the concentration of catalyst, if it does not entail a chain mechanism.

Chemical Reaction Engineering When the reaction is dominated by in-traparticle diffusion, the apparent order of reaction (nD) as measured is related to the true order (n) as

Chemical Reaction Engineering In an ideal tubular-flow reactor

Chemical Reaction Engineering
A chemical reaction is of zero order, when the reaction rate is (where, CA = concentration of reactant)

Chemical Reaction Engineering
The gas phase reaction 2A ⇋ B is carried out in an isothermal plug flow reactor. The feed consists of 80 mole % A and 20 mole % inerts. If the conversion of A at the reactor exit is 50%, then CA/CA0 at the outlet of the reactor is

Chemical Reaction Engineering
Integral method for analysing the kinetic data is used

Chemical Reaction Engineering
Overall rate of reaction in a heterogenous catalytic reaction depends upon the mass and energy transfer from the fluid to solid surface and its rate of reaction is usually __________ the concentration of catalyst, if it does not entail a chain mechanism.

Chemical Reaction Engineering
When the reaction is dominated by in-traparticle diffusion, the apparent order of reaction (nD) as measured is related to the true order (n) as

Chemical Reaction Engineering
In an ideal tubular-flow reactor