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)

None of these

∝ CA

Independent of temperature

∝ 1/CA

None of these

∝ CA

Independent of temperature

∝ 1/CA

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Chemical Reaction Engineering
Fluidised bed reactor is characterised by

Very small pressure drop

Uniformity of temperature

Comparatively smaller equipment

Absence of continuous catalyst regeneration facility

Very small pressure drop

Uniformity of temperature

Comparatively smaller equipment

Absence of continuous catalyst regeneration facility

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Chemical Reaction Engineering
The irreversible reaction is a special case of reversible reaction, if the

Reactant concentration at equilibrium condition is zero

All of these

Conversion of the reactant at equilibrium condition is zero

Equilibrium constant is 1

Reactant concentration at equilibrium condition is zero

All of these

Conversion of the reactant at equilibrium condition is zero

Equilibrium constant is 1

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Chemical Reaction Engineering
For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Decreases with pressure

Is independent of pressure

Increases with pressure

Increases /decreases with pressure depending on the stoichiometric co-efficients of the reaction

Decreases with pressure

Is independent of pressure

Increases with pressure

Increases /decreases with pressure depending on the stoichiometric co-efficients of the reaction

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Chemical Reaction Engineering
In the converter of the contact process for the manufacture of H₂SO₄ the equilibrium conversion of SO₂ (i) with increase in temperature and (ii) with increase in the mole ratio of SO₂ to air.

(i) decreases (ii) increases

(i) increases (ii) decreases

(i) increases (ii) increases

(i) decreases (ii) decreases

(i) decreases (ii) increases

(i) increases (ii) decreases

(i) increases (ii) increases

(i) decreases (ii) decreases

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Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases

Linearly with time

Logarithmically with time

Exponentially with time

Very abruptly towards the end of the reaction

Linearly with time

Logarithmically with time

Exponentially with time

Very abruptly towards the end of the reaction

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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 Fluidised bed reactor is characterised by

Chemical Reaction Engineering The irreversible reaction is a special case of reversible reaction, if the

Chemical Reaction Engineering For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Chemical Reaction Engineering In the converter of the contact process for the manufacture of H₂SO₄ the equilibrium conversion of SO₂ __________ (i) __________ with increase in temperature and __________ (ii) __________ with increase in the mole ratio of SO₂ to air.

Chemical Reaction Engineering The concentration of A in a first order reaction, A → B, decreases

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

Chemical Reaction Engineering
Fluidised bed reactor is characterised by

Chemical Reaction Engineering
The irreversible reaction is a special case of reversible reaction, if the

Chemical Reaction Engineering
For an ideal gas mixture undergoing a reversible gaseous phase chemical reaction, the equilibrium constant

Chemical Reaction Engineering
In the converter of the contact process for the manufacture of H₂SO₄ the equilibrium conversion of SO₂ (i) with increase in temperature and (ii) with increase in the mole ratio of SO₂ to air.

Chemical Reaction Engineering
The concentration of A in a first order reaction, A → B, decreases