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
In the fluid catalytic cracker (FCC), the cracking reaction is (i) and the regeneration is __ (ii)

(i) exothermic (ii) endothermic

(i) endothermic (ii) exothermic

(i) endothermic (ii) enodthermic

(i) exothermic (ii) exothermic

(i) exothermic (ii) endothermic

(i) endothermic (ii) exothermic

(i) endothermic (ii) enodthermic

(i) exothermic (ii) exothermic

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Chemical Reaction Engineering
The rate constant of a reaction is a function of the

Temperature of the system

Initial concentration of the reactants

Time of reaction

Extent of reaction

Temperature of the system

Initial concentration of the reactants

Time of reaction

Extent of reaction

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Chemical Reaction Engineering
The rate constant of a chemical reaction increases by increasing the

Reactant's concentration

Pressure

None of these

Temperature

Reactant's concentration

Pressure

None of these

Temperature

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Chemical Reaction Engineering
According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

K ∝ T e-E/RT

K ∝ e-E/RT

None of these

K ∝ √T

K ∝ T e-E/RT

K ∝ e-E/RT

None of these

K ∝ √T

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Chemical Reaction Engineering
Pick the WRONG design guideline for a reactor in which the reactions, A → R (desired) and A → S (undesired) are to take place. The ratio of the reaction rates is rR/rS = (k₁/k₂).Csub>Aa-b

Use high pressure and eliminate inerts, when a > b

Use CSTR with a high conversion, when a > b

Use batch reactor or plug flow reactor, when a > b

Avoid recycle, when a > b

Use high pressure and eliminate inerts, when a > b

Use CSTR with a high conversion, when a > b

Use batch reactor or plug flow reactor, when a > b

Avoid recycle, when a > b

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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 In the fluid catalytic cracker (FCC), the cracking reaction is __________ (i) and the regeneration is ____________ (ii)

Chemical Reaction Engineering The rate constant of a reaction is a function of the

Chemical Reaction Engineering The rate constant of a chemical reaction increases by increasing the

Chemical Reaction Engineering According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

Chemical Reaction Engineering Pick the WRONG design guideline for a reactor in which the reactions, A → R (desired) and A → S (undesired) are to take place. The ratio of the reaction rates is rR/rS = (k₁/k₂).Csub>Aa-b

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

Chemical Reaction Engineering
In the fluid catalytic cracker (FCC), the cracking reaction is (i) and the regeneration is __ (ii)

Chemical Reaction Engineering
The rate constant of a reaction is a function of the

Chemical Reaction Engineering
The rate constant of a chemical reaction increases by increasing the

Chemical Reaction Engineering
According to Arhenious equation of temperature dependency of rate constant for an elementary reaction

Chemical Reaction Engineering
Pick the WRONG design guideline for a reactor in which the reactions, A → R (desired) and A → S (undesired) are to take place. The ratio of the reaction rates is rR/rS = (k₁/k₂).Csub>Aa-b