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

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

Logarithmically with time

Very abruptly towards the end of the reaction

Linearly with time

Exponentially with time

Logarithmically with time

Very abruptly towards the end of the reaction

Linearly with time

Exponentially with time

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Chemical Reaction Engineering
Space velocity

Is a measure of the ease of the reaction

Is the maximum feed rate pre unit volume of reactor for a given conversion

Describes the extensive operating characteristics of a tubular flow reactor

All of these

Is a measure of the ease of the reaction

Is the maximum feed rate pre unit volume of reactor for a given conversion

Describes the extensive operating characteristics of a tubular flow reactor

All of these

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Chemical Reaction Engineering
Fractional conversion __________ with increase in pressure for ammonia synthesis reaction i.e., N₂ + 3H₂ ⇋ 2NH₃.

Remains unchanged

Unpredictable from the data

Increases

Decreases

Remains unchanged

Unpredictable from the data

Increases

Decreases

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Chemical Reaction Engineering
Batch process is preferred over continuous process, when the

All of these

Sales demand of product is not steady

Same equipment can not be used for several processes of the same nature

Product yields and quality can not be achieved in continuous process, because of long residence time

All of these

Sales demand of product is not steady

Same equipment can not be used for several processes of the same nature

Product yields and quality can not be achieved in continuous process, because of long residence time

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Chemical Reaction Engineering
From among the following, choose one which is not an exothermic process.

Ammonia synthesis

Catalytic cracking

Oxidation of sulphur

Methanol synthesis

Ammonia synthesis

Catalytic cracking

Oxidation of sulphur

Methanol synthesis

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Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

1.6

2

2.5

2.24

1.6

2

2.5

2.24

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Chemical Reaction Engineering

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

Chemical Reaction Engineering Space velocity

Chemical Reaction Engineering Fractional conversion __________ with increase in pressure for ammonia synthesis reaction i.e., N₂ + 3H₂ ⇋ 2NH₃.

Chemical Reaction Engineering Batch process is preferred over continuous process, when the

Chemical Reaction Engineering From among the following, choose one which is not an exothermic process.

Chemical Reaction Engineering At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?

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

Chemical Reaction Engineering
Space velocity

Chemical Reaction Engineering
Fractional conversion __________ with increase in pressure for ammonia synthesis reaction i.e., N₂ + 3H₂ ⇋ 2NH₃.

Chemical Reaction Engineering
Batch process is preferred over continuous process, when the

Chemical Reaction Engineering
From among the following, choose one which is not an exothermic process.

Chemical Reaction Engineering
At a given value of E/R (ratio of activation energy and gas constant), the ratio of the rate constants at 500°K and 400°K is 2, if Arrhenious law is used. What will be this ratio, if transition state theory is used with the same value of E/R?