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)

∝ 1/CA

∝ CA

Independent of temperature

None of these

∝ 1/CA

∝ CA

Independent of temperature

None of these

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Chemical Reaction Engineering
Which of the following is not a dimension-less group used in catalysis ? (where, D = dispersion co-efficient, cm² /sec.D1 = diffusion co-efficient; cm²/sec L = length of the reactor, cm t = time, sec, v = volumetric flow rate, cm³/sec . V = volume, cm³.)

None of these

Reactor dispersion number (D/vL)

Reduced time (vt/V)

Thiele modulus (L√(k/D1)

None of these

Reactor dispersion number (D/vL)

Reduced time (vt/V)

Thiele modulus (L√(k/D1)

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Chemical Reaction Engineering
Half life period of a chemical reaction is

Half of the residence time of a reaction

None of these

The time required to reduce the concentration of the reacting substance to half its initial value

Half of the space time of a reaction

Half of the residence time of a reaction

None of these

The time required to reduce the concentration of the reacting substance to half its initial value

Half of the space time of a reaction

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Chemical Reaction Engineering
If the catalyst pore size is small in comparison with the mean free path, collisions with the pore wall controls the process'. The diffusivity under this condition is called 'Knudsen diffusivity', which is affected by the

Temperature

Both A & B

Neither A nor B

Pressure

Temperature

Both A & B

Neither A nor B

Pressure

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Chemical Reaction Engineering
Variables affecting the rate of homogeneous reactions are

Temperature and composition only

Pressure and temperature only

Pressure and composition only

Pressure, temperature and composition

Temperature and composition only

Pressure and temperature only

Pressure and composition only

Pressure, temperature and composition

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Chemical Reaction Engineering
In a reaction, the threshold energy is equal to (where, A = activation energy N = normal energy of reactants)

A

A-N

N

A+N

A

A-N

N

A+N

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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 Which of the following is not a dimension-less group used in catalysis ? (where, D = dispersion co-efficient, cm² /sec.D1 = diffusion co-efficient; cm²/sec L = length of the reactor, cm t = time, sec, v = volumetric flow rate, cm³/sec . V = volume, cm³.)

Chemical Reaction Engineering Half life period of a chemical reaction is

Chemical Reaction Engineering If the catalyst pore size is small in comparison with the mean free path, collisions with the pore wall controls the process'. The diffusivity under this condition is called 'Knudsen diffusivity', which is affected by the

Chemical Reaction Engineering Variables affecting the rate of homogeneous reactions are

Chemical Reaction Engineering In a reaction, the threshold energy is equal to (where, A = activation energy N = normal energy of reactants)

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

Chemical Reaction Engineering
Which of the following is not a dimension-less group used in catalysis ? (where, D = dispersion co-efficient, cm² /sec.D1 = diffusion co-efficient; cm²/sec L = length of the reactor, cm t = time, sec, v = volumetric flow rate, cm³/sec . V = volume, cm³.)

Chemical Reaction Engineering
Half life period of a chemical reaction is

Chemical Reaction Engineering
If the catalyst pore size is small in comparison with the mean free path, collisions with the pore wall controls the process'. The diffusivity under this condition is called 'Knudsen diffusivity', which is affected by the

Chemical Reaction Engineering
Variables affecting the rate of homogeneous reactions are

Chemical Reaction Engineering
In a reaction, the threshold energy is equal to (where, A = activation energy N = normal energy of reactants)